Datasets:
AutonLab
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TimeSeriesExam1

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The given time series is a square wave. What is the most likely period of the square wave?
[ "85.6", "51.12", "18.71" ]
18.71
multiple-choice
null
null
22
easy
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "Square Wave", "Period" ]
Check the time interval between two peaks.
Pattern Recognition
Cycle Recognition
601
[ -0.036262929468150774, 2.3864660191872624, 2.457220066755467, 2.268668567733564, 2.169541390985357, 2.4744082812831256, 2.5020648636587985, 2.4187028717938297, 2.3356357182596086, 2.507177913734962, -2.379743382219793, -2.3127949249762807, -2.4041218823936403, -2.1824541512832845, -2.165...
Does time series 1 granger cause time series 2?
[ "No, they are not granger causal", "No, time series 2 granger causes time series 1", "Yes, time series 1 granger causes time series 2" ]
Yes, time series 1 granger causes time series 2
binary
[ -0.014778041034722631, -0.0030621825418272117, 0.035524934879884895, 0.03753353306044904, 0.0536883196692714, 0.045584532761550556, 0.05679891669982233, 0.03648931175302439, 0.028835923644055204, 0.005055848763110039, 0.03270518108519585, 0.06261568688575093, 0.06170588116888201, 0.0422652...
[ -0.014778041034722631, -1.5932651334600796, -1.5984349410438166, -2.876973101735202, -0.6426061519880115, 0.5876167262991442, 0.08069563928858131, 1.1938002454367773, 0.3635012304104668, 1.272524645851927, 0.3613347269442575, 1.6432841325764223, 0.36872016821305376, 1.975780782099825, 0....
101
hard
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "Granger Causality" ]
Granger causality is a statistical concept that determines whether one time series can predict another. While you cannot perform the statistical test, you can check if one time series can predict the other by shifting the time series by a certain number of steps. Do they look simiar after the shift?
Causality Analysis
Granger Causality
602
null
Does the given time series exhibit any monotonic increasing trend?
[ "No", "Yes" ]
No
binary
null
null
3
easy
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "Linear Trend", "Exponential Trend", "Log Trend" ]
Check if the time series values increase over time.
Pattern Recognition
Trend Recognition
603
[ 9.034190673584972, 9.217548286213889, 9.17706827961813, 9.16771561764499, 9.13187494285229, 9.190054905213298, 9.228897927931074, 9.401597376957112, 9.192400436222842, 9.320840290118833, 9.21493538854988, 9.172947232439718, 9.195725770846567, 9.06990512481827, 9.210170362215823, 8.9991...
Are the given two time series likely to have the same underlying distribution?
[ "No, they have different underlying distribution: AR(1) and MA(5)", "Yes, they have the same underlying distribution: AR(1)" ]
Yes, they have the same underlying distribution: AR(1)
binary
[ 19.24446106011657, 27.6130387696845, 29.781895960636447, 30.835938970413977, 10.328661250776898, 15.840777868832312, 17.320339010776244, 23.020025109277277, 19.19775001271704, 18.939471296587747, 14.107030574092484, 26.06080705761817, 33.16729982857712, 49.37159731412112, 36.175557486727...
[ 15.29342219348276, 0.26786248597529294, -24.462185529277146, 3.624096197290317, 2.009737663234277, 0.10700511749509123, 15.54573445716376, 12.32500990754182, 10.039154703261117, 2.434235660105718, -9.470631504764903, -6.981193560364477, -18.42092967011472, -12.479549724429898, -14.627387...
92
hard
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "AutoRegressive Process", "Moving Average Process" ]
The difference between AR(1) and MA(1) is that AR(1) is a linear combination of past values and white noise, while MA(1) is a linear combination of past white noise values. You should check if the time series exhibit any dependency on the previous values. This could give you a clue about whether the time series is AR(1) or not. Check this for both time series.
Similarity Analysis
Distributional
604
null
Is the two time series lagged version of each other despite minor noise?
[ "Yes, they are lagged versions", "No, they are not lagged versions at all" ]
Yes, they are lagged versions
binary
[ -0.21283886868901197, -0.0062618057993255, -0.06159541945143134, -0.10752398517476655, 0.02974482665303268, -0.10541190962749451, -0.09882353984339949, -0.06151998535934295, 0.07895756552189583, -0.03431232562724591, -0.04728542472852114, -0.012893758592063204, 0.1037892254581197, -0.13589...
[ -0.06090361323925157, 0.21989595868889536, 0.07402987850486135, -0.021902530942868946, -0.04099141882801945, 0.04546499339224039, 0.18140682515258097, 0.21142949587540225, -0.04216142732569697, 0.12466823138885631, 0.024915877581654686, -0.089709179159432, -0.06700951467242347, 0.049303512...
100
hard
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "Lagged Pair", "Red Noise" ]
Try to shift one time series by a certain number of steps and check if it looks the same as the other time series despite the noise. If they are lagged versions, they should look very similar in general after the shift.
Causality Analysis
Granger Causality
605
null
Are the given two time series likely to have the same underlying distribution?
[ "No, they have different underlying distribution", "Yes, they have the same underlying distribution" ]
Yes, they have the same underlying distribution
binary
[ 0.03176358872042323, 0.07891761494591562, -0.21868272586623083, -0.13585407892560608, -0.34176217438282475, -0.17642117250536204, -0.3827962339547041, -0.1493397514109684, -0.1420009702184833, -0.27186113272519014, -0.4610216403017979, -0.3201126442639144, 0.033684497395632784, -0.16960436...
[ 0.027426791996887023, -0.04079976174967074, 0.014914048100388475, -0.20005465447007612, -0.258085921236729, -0.04205095979904356, 0.02776418303699804, -0.3217156880025093, -0.4328932458097716, 0.023488445934718466, -0.2521584415013147, -0.34180941167983286, -0.4266755008004062, -0.44009514...
95
hard
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "Red Noise", "AutoRegressive Process", "Linear Trend" ]
When we say two time series have the same underlying distribution, you should check if they have the same mean and variance. They should also share similar behaviors over time.
Similarity Analysis
Distributional
606
null
You are given two time series with same underlying pattern but different noise level (variance). Which time series has higher magnitude of noise?
[ "Time series 2", "Time series 1" ]
Time series 2
multiple_choice
[ 0.9936313396505833, 1.3500272076393929, 1.606384622158339, 2.11347141248961, 2.5923459504814206, 2.9157949393697296, 2.9539536294302193, 3.1192284599573212, 3.463774969582457, 3.8053499814716054, 3.85259470260438, 4.108313157131553, 4.134461065195226, 4.239781603062806, 4.052321740964485...
[ 3.3009383013916676, -2.4301802746507146, 2.154770483055942, 0.008525592761915224, 4.211893679943593, 2.4753554239338698, 1.9651116317605082, 3.922437793591552, 4.3279753132540115, 7.107421532557678, 6.277692725681796, 3.0929355918153973, 5.39272774252423, 6.324431969205728, 6.97398311513...
60
hard
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "Sine Wave", "Exponential Trend", "Gaussian White Noise", "Variance" ]
When the noise level is high, it can distort the pattern in the time series. Both time series have the same underlying pattern, but different noise level. To tell which time series has higher noise level, you should check the degree of distortion of the time series pattern.
Noise Understanding
Signal to Noise Ratio Understanding
607
null
How does the noise in the given time series influence the detection of periodic pattern in the time series?
[ "Distort the pattern", "No influence, Sinewave" ]
No influence, Sinewave
binary
null
null
58
hard
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "Gaussian White Noise", "Sine Wave", "Additive Composition" ]
When the noise level is high, it can distort the pattern in the time series. Can you check if you can still detect the cyclic pattern in the time series?
Noise Understanding
Signal to Noise Ratio Understanding
608
[ 0.1867123049887745, 0.4138089268712175, 1.1203899729730828, 1.722576197361821, 1.8496117219282748, 1.9866470624951906, 2.30928271343386, 2.1565825341875287, 2.0784720451334007, 1.5602585791278614, 1.2710842917033325, 0.9345508300489469, 0.19875289865520657, -0.4054059475546, -0.687815557...
Is the two time series lagged version of each other despite amplitude difference?
[ "Yes, they are lagged versions", "No, they are not lagged versions" ]
No, they are not lagged versions
binary
[ 0, 0.34241294544053397, 0.6786663971437056, 1.002714431780333, 1.3087361727957523, 1.5912431173029802, 1.8451803345804716, 2.0660196702492573, 2.24984323760568, 2.393415656674006, 2.4942437090157528, 2.550622308364258, 2.561665939465525, 2.5273249854475064, 2.4483866426693845, 2.326460...
[ 1.1046739304761224, 0.9696622084248756, 0.9104560221228527, 1.0251094507364285, 1.060948874818517, 1.1151076519404537, 1.0867164561430263, 1.1341682868613752, 1.1766119417591652, 1.29045486960546, 1.3574867099209584, 1.318708434320143, 1.2580058747384995, 1.2175208114133145, 1.2524865420...
99
hard
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "Lagged Pair" ]
Try to shift one time series by a certain number of steps and check if it looks the same as the other time series despite the scale difference. If they are lagged versions, they should look very similar in general after the shift.
Causality Analysis
Granger Causality
609
null
Is the two time series lagged version of each other despite amplitude difference?
[ "No, they are not lagged versions", "Yes, they are lagged versions" ]
Yes, they are lagged versions
binary
[ 0.009892619530814955, 0.019519732538347205, 0.03898107876907045, 0.03520532824753241, 0.03284783957036305, 0.04109066252978883, 0.044406825113945884, 0.05732656161485744, 0.06625545073068115, 0.06176275657759693, 0.06956252933264534, 0.06894111112556801, 0.07400502942254726, 0.066611607869...
[ 0.9130322406381256, 0.8852376592492796, 0.8997414852903701, 0.8789797566456977, 0.8935073237224544, 0.9165612859712573, 0.9305256252233397, 0.9753558552093315, 0.9592660274951951, 0.9309775074405954, 0.9526364931510413, 0.9514161455917353, 0.9592370018417797, 0.9282221844052981, 0.853701...
99
hard
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "Lagged Pair" ]
Try to shift one time series by a certain number of steps and check if it looks the same as the other time series despite the scale difference. If they are lagged versions, they should look very similar in general after the shift.
Causality Analysis
Granger Causality
610
null
Both time series have a cyclic components. Which time series has a higher amplitude of the cyclic component?
[ "Time series 1 has higher amplitude", "Time series 2 has higher amplitude" ]
Time series 2 has higher amplitude
binary
[ 0.013841788858511513, 2.638792341583475, 2.64398018716634, 2.7648629008488848, 2.686498962077008, 2.563347902535109, 2.6775555380507745, 2.7114492633342797, 2.522707974430967, 2.8013496010080536, 2.7316353593957543, 2.6001905811998487, 2.711625222048335, 2.736040321147065, 2.845761799246...
[ 0.07931711335063847, 7.075041940531307, 6.849511400647046, 7.040963206415088, 7.141171415554612, 7.120914620685376, 7.227954910620466, 7.132775050242382, 7.3262314622739675, 7.045114213428231, 7.211900421927311, 7.06629277573348, 7.269648173370878, 7.111983458060423, 7.020689610635237, ...
83
easy
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "Sine Wave", "Square Wave", "Amplitude" ]
Amplitude refers to the height of the peak and the depth of the trough in the cyclic component. You should check the height of the peak and the depth of the trough for both time series.
Similarity Analysis
Shape
611
null
What is the most likely variance of the given time series?
[ "0.88", "varies across time", "0" ]
0.88
multiple_choice
null
null
42
hard
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "Variance" ]
Check the degree of variation of the time series over time.
Pattern Recognition
First Two Moment Recognition
612
[ 1.6361830094594059, 0.6064778995757456, 0.07754488684869783, 1.2533025533534643, 0.30027909530757113, -0.7530417990419057, -0.4890046421668817, 0.00292921463765837, -1.6426027411717683, -1.3199379901386346, -1.9078208148414653, 1.43523486996213, -0.2536176779888134, 0.09384405257010073, ...
The given time series has a cyclic component and a trend component added together. What is the most likely type of the trend component?
[ "Log", "Linear", "Exponential" ]
Log
multiple_choice
null
null
10
hard
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "Linear Trend", "Exponential Trend", "Log Trend", "Sine Wave", "Additive Composition" ]
Despite having a cyclic component, check the general trend of the time series.
Pattern Recognition
Trend Recognition
613
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The following time series has an anomaly where the pattern is cutoff at certain point in time. What is the likely pattern of the time series without the anomaly?
[ "Sine wave with linear trend", "Sawtooth wave with exponential trend", "Square wave with log trend" ]
Sine wave with linear trend
multiple_choice
null
null
67
hard
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "Sine Wave", "Sawtooth Wave", "Square Wave", "Linear Trend", "Log Trend", "Cutoff Anomaly" ]
Cutoff anomaly brings sudden disappearance of the pattern. However, this only influences a small part of the time series. Can you check the place where the pattern disappears and try to recover the original pattern?
Anolmaly Detection
General Anomaly Detection
614
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Does the given time series exhibit any monotonic increasing trend?
[ "Yes", "No" ]
Yes
binary
null
null
3
easy
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "Linear Trend", "Exponential Trend", "Log Trend" ]
Check if the time series values increase over time.
Pattern Recognition
Trend Recognition
615
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Is the given time series likely to have an anomaly?
[ "Yes, it's pattern is flipped at certain point in time", "No", "Yes, it's pattern is distorted by random spikes or noises" ]
Yes, it's pattern is distorted by random spikes or noises
binary
null
null
63
easy
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "Flip Anomaly", "Spike Anomaly" ]
Anomaly is an observation that deviates from the general pattern in the time series. You should check if the time series has any sudden changes or unexpected patterns. If so, check the type of anomaly based on the given definitions.
Anolmaly Detection
General Anomaly Detection
616
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How does the linear trend in the first half of the time series compare to the trend in the second half?
[ "Same", "Different" ]
Same
binary
null
null
6
easy
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "Piecewise Linear Trend" ]
Check if the time series is a piecewise linear trend with different slopes in the first and second half.
Pattern Recognition
Trend Recognition
617
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One type of noise in time series is random walk. Is the given time series noisy (noise dominates other patterns) based on your understanding of random walk
[ "Yes", "No" ]
No
binary
null
null
56
easy
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "Red Noise" ]
When we say a time series is noisy, it typically refers to there are random fluctuations that disrupt the overal pattern of the time series. When the time series has a random walk noise applied to it, it seems like the pattern are even more disrupted. Can you check if it is the case for the given time series?
Noise Understanding
Signal to Noise Ratio Understanding
618
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The given time series has a cyclic component and a trend component added together. What is the most likely type of the trend component?
[ "Exponential", "Linear", "Log" ]
Linear
multiple_choice
null
null
10
hard
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "Linear Trend", "Exponential Trend", "Log Trend", "Sine Wave", "Additive Composition" ]
Despite having a cyclic component, check the general trend of the time series.
Pattern Recognition
Trend Recognition
619
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Does time series 1 granger cause time series 2?
[ "No, they are not granger causal", "No, time series 2 granger causes time series 1", "Yes, time series 1 granger causes time series 2" ]
No, they are not granger causal
binary
[ -0.018260202731458536, -0.9358485678809604, -1.5831129199494594, -2.018956575080027, -2.0435202499707543, -2.1599614428047706, -1.6379524692272927, -1.2085493640580378, -0.8472878205872804, -0.43927700142692266, -0.09285447167032308, 0.25850412208613877, 0.35420238351857236, 0.219489247006...
[ 0.08430702950496155, -0.02175639633175048, -0.022270412089212873, -0.06348874910602484, -0.1796311993604019, -0.2140084744599256, -0.1096381552060084, -0.17216838013825123, -0.2336094815385975, -0.20063139717195688, -0.2856662714088928, -0.3602433247576857, -0.3084684068477317, -0.28756789...
101
hard
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "Granger Causality" ]
Granger causality is a statistical concept that determines whether one time series can predict another. While you cannot perform the statistical test, you can check if one time series can predict the other by shifting the time series by a certain number of steps. Do they look simiar after the shift?
Causality Analysis
Granger Causality
620
null
You are given two time series which both have a trend component. Do they share the same direction of trend (upward or downward)?
[ "Yes, they have the same direction of trend", "No, they have different direction of trend" ]
Yes, they have the same direction of trend
binary
[ -0.05629827138769335, 0.2782850056918259, 0.41280861185226553, 0.5146926046194159, 0.9223659188549428, 1.017810859461427, 1.1085865978925789, 1.0722600132997475, 1.2317743690167233, 1.551178464782326, 1.2067566655625301, 1.3059200077100352, 1.269014906405261, 1.2102749638389068, 0.906800...
[ -0.026741280588854756, 0.37419636592915956, 0.6187461592727405, 1.2657349224229635, 1.5567265854266037, 1.9450035529750092, 1.8840468713649794, 2.4205378852087884, 2.5559553553137255, 2.960818591426281, 2.991108314034558, 3.019909873921344, 2.966763565449046, 3.009660206939136, 2.7844251...
81
easy
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "Linear Trend", "Sine Wave" ]
Trend refers to the general direction of the time series. Are the values going up or down? Check this for both time series to see if they have the same direction of trend.
Similarity Analysis
Shape
621
null
The time series shows a structural break. What is the most likely cause of this break?
[ "Change in variance in underlying distribution", "Abrupt frequency change", "Sudden shift in trend direction" ]
Abrupt frequency change
multiple_choice
null
null
71
hard
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "Linear Trend", "Gaussian White Noise", "Sine Wave" ]
You know the time series shows a structural break. Can you first identify the place where the break happens? Then, you should check the type of break based on the given options.
Anolmaly Detection
General Anomaly Detection
622
[ 0, 0.4449985256320443, 0.8672496083866625, 1.2451686095928625, 1.5594370587455524, 1.7939901754387197, 1.9368380691078464, 1.9806786384779145, 1.9232708405116619, 1.7675492480890802, 1.5214740404565685, 1.1976240946367454, 0.8125539781597606, 0.38594771237360276, -0.06038743572384346, ...
Which of the following best describe the cycle pattern in the given time series?
[ "Period decrease over time", "Period increase over time", "Period remain the same over time" ]
Period remain the same over time
multiple-choice
null
null
29
hard
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "Sine Wave", "Period" ]
Check the time interval between two peaks, and see how it changes over time.
Pattern Recognition
Cycle Recognition
623
[ -0.042441077027926176, 0.21602741789241675, 0.3395855807478096, 0.5678366818781054, 0.7587570549242817, 0.8410009443808892, 1.0998827212351963, 1.190769775748063, 1.158954504064914, 1.1576083202430507, 1.3456048560349352, 1.4353335572349755, 1.3452078590489907, 1.2613294047087138, 1.2037...
You are given two time series following similar pattern. Both of them have an anomaly. What is the likely type of anomaly in each time series?
[ "Time series 1 with cutoff anomaly and time series 2 with speed up/down anomaly", "Time series 1 with cutoff anomaly and time series 2 with flip anomaly", "Time series 1 with flip anomaly and time series 2 with speed up/down anomaly" ]
Time series 1 with cutoff anomaly and time series 2 with speed up/down anomaly
multiple_choice
[ 0, 0.3626794644739365, 0.6899189503327943, 0.9497931495377632, 1.1170575366045554, 1.1756519308062836, 1.1202932241280514, 0.9569993201917718, 0.7024923238285868, 0.3825401684691755, 0.02940114627669561, -0.32137522669294033, -0.6344737441670087, -0.8783158062495982, -1.0281911474934364,...
[ 0, 0.5582175377966975, 1.0594875534668133, 1.452719714411114, 1.6979356410640847, 1.7703807793225672, 1.6630704659342566, 1.3875083179012397, 0.9725030578217274, 0.46120546752741515, -0.09332977354327984, -0.6336008896454223, -1.1035732045717332, -1.4544424427830593, -1.6496543664514491,...
74
hard
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "Cutoff Anomaly", "Flip Anomaly", "Speed Up/Down Anomaly" ]
You already know both time series have an anomaly. You should treat them separately and check the type of anomaly based on the given definitions.
Anolmaly Detection
General Anomaly Detection
624
null
The given time series is a random walk process. What is the most likely noise level (variance) at each step?
[ "1.05", "18.82" ]
1.05
multiple_choice
null
null
54
hard
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "Red Noise" ]
The noise level refers to the standard deviation of the noise. You should check the degree of variation of the time series over time. You can estimate the standard deviation by observing the average distance between the data points and the past value.
Noise Understanding
Red Noise Recognition
625
[ -0.03500023330897285, 0.16399012771085894, -0.01897253644086725, -0.13862489932234728, -0.04106687549670492, -0.1601638534484208, 0.010785118290201897, 0.025404317541288135, 0.05855336852496027, 0.14116363844831634, -0.08187366152935026, 0.22923724827189568, 0.17789663163648523, 0.16608547...
The given time series has sine wave pattern. How does its amplitude change from the beginning to the end?
[ "Increase", "Remain the same", "Decrease" ]
Decrease
multiple-choice
null
null
17
hard
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "Sine Wave", "Amplitude" ]
Base on the definition of amplitude, check if the distance between the peak and the baseline changes.
Pattern Recognition
Cycle Recognition
626
[ -0.013806199014986776, 1.6004055241086566, 3.136198129849151, 4.402050713225511, 5.719892279329879, 6.647532697071773, 7.435636575705977, 8.024644716022593, 8.022020856705891, 8.161794550840636, 7.469425590107536, 6.983691702667109, 6.203037798567302, 4.762908552377194, 3.458838006389944...
The given time series is a square wave. What is the most likely period of the square wave?
[ "88.53", "17.05", "50.14" ]
50.14
multiple-choice
null
null
22
easy
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "Square Wave", "Period" ]
Check the time interval between two peaks.
Pattern Recognition
Cycle Recognition
627
[ -0.051919234317835676, 2.2332561892510503, 2.1032894243605433, 2.015370530366599, 2.0809544844440158, 2.1195319449648338, 2.141669295957857, 2.1406870066952153, 2.015844747599891, 1.992584817791356, 2.08201498094628, 2.1724851806922585, 2.0841559115223802, 1.998608333130324, 2.1917127947...
Are the given two time series likely to have the same underlying distribution?
[ "Yes, they have the same underlying distribution: AR(1)", "No, they have different underlying distribution: AR(1) and MA(5)" ]
No, they have different underlying distribution: AR(1) and MA(5)
binary
[ 11.173163204935278, 22.66481578097059, 8.226169634811356, 6.046738570285353, -19.352991523298485, -14.566004780804267, -0.5111106206924418, -23.752912660745206, -25.486359411101187, -33.060761885168965, -26.228009026117626, -23.685190265113686, -27.02649815089537, -25.230975253018013, -3...
[ 8.377454881887305, 7.801886666882153, 8.434422341065062, 9.386877229844455, 9.139880190244327, 11.226058790287222, 11.853620832509439, 11.873388945609516, 12.06905841158766, 9.427637359481379, 4.76576003674958, 5.072054206436708, 7.687771667869836, 10.058955823346805, 12.038991389830116,...
92
hard
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "AutoRegressive Process", "Moving Average Process" ]
The difference between AR(1) and MA(1) is that AR(1) is a linear combination of past values and white noise, while MA(1) is a linear combination of past white noise values. You should check if the time series exhibit any dependency on the previous values. This could give you a clue about whether the time series is AR(1) or not. Check this for both time series.
Similarity Analysis
Distributional
628
null
The time series shows a structural break. What is the most likely cause of this break?
[ "Change in variance in underlying distribution", "Sudden shift in trend direction", "Abrupt frequency change" ]
Change in variance in underlying distribution
multiple_choice
null
null
71
hard
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "Linear Trend", "Gaussian White Noise", "Sine Wave" ]
You know the time series shows a structural break. Can you first identify the place where the break happens? Then, you should check the type of break based on the given options.
Anolmaly Detection
General Anomaly Detection
629
[ 0.24739131696590097, 0.29044063707195655, -0.06991368316137109, -0.06898673078990065, -0.327865444559282, -0.5471114936662712, 0.6904411471603138, -0.35173629565487236, 0.6374627414667803, -0.3494709807988206, 0.21354135231932259, -0.4626300938118865, 0.21281135710533208, -0.13238316203737...
Are the given two time series likely to have the same underlying distribution?
[ "No, they have different underlying distribution", "Yes, they have the same underlying distribution: Gaussian White Noise" ]
Yes, they have the same underlying distribution: Gaussian White Noise
binary
[ 2.398985753830952, -2.849731025795514, -3.2188722951083206, -3.337455449462335, 2.016292751526769, 5.089832720295138, -1.9481077829314564, -0.2350245986363292, -0.40405745794846076, -3.2547523144314754, -5.146899850094537, 4.235684732835152, 1.8291634728522732, -1.4556283681248223, 1.608...
[ 0.379804504105354, 2.7408792488800677, -2.5096003460001417, -1.0380628383531223, 3.004239182438863, -0.8592995361334086, -0.9691329386862012, -0.4147798565616883, 0.9517184471368452, 0.6328476462493893, -1.0629811755347496, -3.068558027832452, -0.936649578814328, -2.283621121704733, -2.9...
91
hard
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "Gaussian White Noise", "Red Noise" ]
You should focus on the underlying distribution of the time series. You can start from analyzing whether both time series are stationary. Then, you can check if they have the same mean and degree of variation from mean.
Similarity Analysis
Distributional
630
null
Which additive combination of patterns best describes the time series?
[ "SawtoothWave + SquareWave", "SineWave + SawtoothWave", "SineWave + SquareWave" ]
SineWave + SawtoothWave
multiple-choice
null
null
16
hard
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "Sine Wave", "Square Wave", "Sawtooth Wave", "Additive Composition" ]
Imagine the shape of the time series as addition of two different patterns.
Pattern Recognition
Cycle Recognition
631
[ -1.265651626158053, -1.1558353383801914, -1.0465525959771824, -0.9383332018864263, -0.8316995004209278, -0.7271627133992432, -0.625219354291737, -0.5263477455353309, -0.43100466344528343, -0.33962213425753107, -0.25260440377505466, -0.17032510187402072, -0.09312462175865288, -0.02130773234...
Which of the given time series has higher variance?
[ "Time Series 2", "Time Series 1" ]
Time Series 2
multiple_choice
[ 0.06278679136829018, 0.4907757079289448, -0.2897922096727954, -0.7095474974940031, -0.2762054937663725, -0.3737054854284251, -1.1705805406254084, 1.3689498016987218, 0.5368582567474719, 0.6693882345291013, 0.031656264694960065, 0.37173333525629665, 0.4542526204414695, -1.0258225067798172, ...
[ 0.8542106380015156, 5.3185780851902855, -0.946073085411265, -0.25046697936691564, -5.240455217427819, 2.539751800877144, -0.9793197004918976, 3.461372177138907, -0.6636389783576236, -1.0032138961939319, 2.302459166793921, 4.922251158245581, -0.48759797105286945, -1.1439785482955962, -2.1...
44
hard
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "Variance" ]
Check the degree of variation of the time series over time.
Pattern Recognition
First Two Moment Recognition
632
null
Does the given time series exhibit regime switching?
[ "Yes", "No" ]
Yes
binary
null
null
39
easy
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "Regime Switching" ]
Identify whether the time series exhibit different patterns over time.
Pattern Recognition
Regime Switching Detection
633
[ -0.06842761319618645, -0.05751047453283985, -0.2199185795154181, -0.07268837179474949, -0.06762776753203541, 0.1801722153206713, -0.0121759367274821, 0.14536676417739072, 0.18381827876911358, 0.09842553097135995, -0.00739611319101862, 0.016817420129254187, 0.05679041006794881, -0.079395456...
Weak stationarity requires the mean, variance to be constant over time. Does the following time-series exhibit weak stationarity?
[ "No, the mean is different overtime", "No, the variance is different overtime", "Yes" ]
No, the variance is different overtime
multiple_choice
null
null
33
hard
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "Stationarity" ]
For mean, check if the average value changes over time. For variance, check if the degree of variation changes over time.
Pattern Recognition
Stationarity Detection
634
[ 1.3152898765252574, -0.4462736218217031, 0.28244734995906506, -0.4829715120326621, -0.4004263058812384, 1.975851457072068, -3.6087029310356065, -1.5559999406696365, 0.3493165206155523, 0.6522386411016, 2.60674819615835, 0.7899505875842053, 0.005573424329478438, -1.8229325203553457, 2.008...
The given time series has square wave pattern. How does its period change from the beginning to the end?
[ "Increase", "Decrease", "Remain the same" ]
Increase
multiple-choice
null
null
18
hard
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "Square Wave", "Period" ]
Base on the definition of period, check if the time interval between two peaks remains the same.
Pattern Recognition
Cycle Recognition
635
[ 0.13829873599141757, 1.8783167722183784, 1.8207025698669652, 1.8301604754349174, 1.738655436401151, 1.794655626735733, 1.7627243199859133, 1.7985680927005954, 1.6628791088065968, -1.727877120889729, -1.677350381397296, -1.836574103773045, -1.721482942433617, -1.5948967442289983, -1.67285...
The time series has a trend and cyclic component added together. Which components are most likely present in the given time series?
[ "No trend and sawtooth wave", "Linear trend and sine wave", "Exponential trend and sine wave" ]
No trend and sawtooth wave
multiple-choice
null
null
26
hard
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "Linear Trend", "Exponential Trend", "Sine Wave", "Sawtooth Wave", "Additive Composition" ]
For trend, check if the slope is constant or changes over time. For cyclic component, check the overall shape of the time series.
Pattern Recognition
Cycle Recognition
636
[ 8.830817264795565, 8.922085512915181, 8.781748897262984, 9.151573083462996, 9.154041396220434, 9.207175127539779, 9.332904471552414, 9.403008701870583, 9.534362874854553, 9.548226912099521, 9.708397663253235, 9.581236784292926, 10.027849553448624, 9.785918605252453, 10.05389778134956, ...
Based on the given time series, how many different regimes are there?
[ "4", "1", "3" ]
4
multiple_choice
null
null
40
hard
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "Regime Switching" ]
First identify the different patterns in the time series. It might be helpful to identify their individual starting and ending points. Then, count the number of different patterns.
Pattern Recognition
Regime Switching Detection
637
[ 0.03644627299887682, 0.13698050789229482, -0.06699670328069125, 0.021900132880468, 0.08146371592188434, 0.13952028192656532, 0.050775666492489144, 0.021386225123223593, -0.11957238720169591, -0.053809020650350606, 0.09934224667509255, 0.13263083115476895, 0.2160695713903273, 0.032312359292...
The given time series is a swatooth wave followed by a square wave. What is the most likely period of the swatooth wave?
[ "36.88", "59.7", "13.62" ]
59.7
multiple-choice
null
null
25
hard
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "Sawtooth Wave", "Square Wave", "Period" ]
The sawtooth wave comes before the square wave. Begin by identifying where the sawtooth wave starts. Next, measure the time interval between two peaks.
Pattern Recognition
Cycle Recognition
638
[ -1.764622218796741, -1.6304957227911425, -1.7180759245420387, -1.7599577775563153, -1.6467303364108437, -1.500975820505293, -1.4929891604812244, -1.2640314732733362, -1.1926490451654523, -1.2303629870394852, -1.2079950311760537, -1.1848140932573272, -1.20287733097663, -1.3026021191096544, ...
What is the type of the trend of the given time series?
[ "Exponential", "No Trend", "Linear" ]
No Trend
multiple_choice
null
null
1
easy
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "Linear Trend", "Exponential Trend" ]
It would be helpful to check if slope of the time series changes over time.
Pattern Recognition
Trend Recognition
639
[ 7.097843722702941, 7.024350492903661, 6.987682502237994, 7.004319177521179, 7.009817455080334, 7.064029136987003, 7.118163586268154, 7.046898792577457, 7.104995646617835, 6.953899192642171, 6.992529411197273, 6.970785346216105, 7.043722463987998, 6.996438509128906, 7.072885338922957, 6...
The given time series has a decreasing trend, is it a linear trend or log trend?
[ "Linear", "Log" ]
Linear
multiple_choice
null
null
8
hard
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "Linear Trend", "Log Trend" ]
Check if the slope of the time series is constant or changes over time.
Pattern Recognition
Trend Recognition
640
[ 0.52346937826329, 0.12111365402630214, 0.027163526945596067, 0.12129847454267495, -0.24755555093075518, 0.03672029979786751, -0.09113172870368419, -0.1063689670384865, 0.21847479048799803, -0.08743430203929214, 0.0004684176507162262, 0.05463022353022357, 0.20498910467818127, 0.283045537112...
Two time series are given. Both of them have a noise component. Do they have the same type of noise?
[ "No, they have different noise: white noise and red noise", "Yes, they both have Gaussian white noise" ]
Yes, they both have Gaussian white noise
binary
[ -0.5836844985853973, 0.7260169720460625, 3.3655279575819548, 0.8196484821410174, 1.9876698899035863, 1.265094893741069, 1.9656136401314468, 2.3967425386656656, 0.34743038870596465, 2.7975480729076154, -1.396009659745236, -0.7186338437668636, -0.4710068643505967, -2.041365771389203, -0.61...
[ -0.4703533790993283, 1.3965611841070438, 0.2250315592185841, 0.0912531181397328, 0.8435130856898239, 0.08446862449674808, 2.117636207848322, 0.7665010128624661, 1.9823290055761742, 2.4468539396897553, 1.0125426233369306, 2.7629840872061333, 0.5588522290157083, 1.8671948918280945, 2.36430...
87
hard
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "Gaussian White Noise", "Red Noise", "Additive Composition" ]
When a white noise is added to a time series, it is expected the random fluctuations have similar amplitude or distribution. Random walk, on the other hand, can result in very different noise patterns.
Similarity Analysis
Shape
641
null
One type of noise in time series is random walk. Is the given time series noisy (noise dominates other patterns) based on your understanding of random walk
[ "Yes", "No" ]
No
binary
null
null
56
easy
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "Red Noise" ]
When we say a time series is noisy, it typically refers to there are random fluctuations that disrupt the overal pattern of the time series. When the time series has a random walk noise applied to it, it seems like the pattern are even more disrupted. Can you check if it is the case for the given time series?
Noise Understanding
Signal to Noise Ratio Understanding
642
[ 0, 0.00633654361900614, 0.01267308723801228, 0.01900963085701842, 0.02534617447602456, 0.0316827180950307, 0.03801926171403684, 0.04435580533304298, 0.05069234895204912, 0.057028892571055256, 0.0633654361900614, 0.06970197980906753, 0.07603852342807368, 0.08237506704707982, 0.08871161066...
Which of the following best describe the cycle pattern in the given time series?
[ "Amplitude decrease over time", "Amplitude remain the same over time", "Amplitude increase over time" ]
Amplitude remain the same over time
multiple-choice
null
null
28
hard
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "Sine Wave", "Amplitude" ]
Check the distance between the peak and the baseline, and see how it changes over time.
Pattern Recognition
Cycle Recognition
643
[ -0.05673870123468766, 0.5520723562140233, 0.7366229586026565, 1.0986038658340727, 1.4927557612647946, 1.6997872480866663, 2.0445510550818162, 2.4395030843242016, 2.608088617330854, 2.5406645148282987, 2.5963390295108897, 2.565930683598666, 2.650236345645435, 2.1970358670962664, 2.0288285...
How does the linear trend in the first half of the time series compare to the trend in the second half?
[ "Different", "Same" ]
Different
binary
null
null
6
easy
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "Piecewise Linear Trend" ]
Check if the time series is a piecewise linear trend with different slopes in the first and second half.
Pattern Recognition
Trend Recognition
644
[ 0.010275100794718876, -0.07998151963615487, 0.05780675463555935, -0.07237056965437869, -0.16753670173518867, 0.11232087299229937, -0.08953528072378243, 0.09154551281782275, -0.009278780685298015, 0.08077282300028099, -0.060481660787700245, 0.10532063358739539, -0.03288463405140192, -0.0039...
What is the most likely mean of the given time series?
[ "26.4", "-13.36", "8.0" ]
26.4
multiple_choice
null
null
41
easy
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "Mean" ]
The given time series is stationary. Check the average value of the time series over time.
Pattern Recognition
First Two Moment Recognition
645
[ 25.904371008811232, 26.55550567611529, 26.010244165896832, 26.538142068383785, 26.538620158266593, 26.340144747639954, 25.952115887030985, 25.87914379425213, 26.317769102978794, 26.50649166277189, 26.22201023978923, 26.62805341508152, 26.466599002207044, 26.301553316375752, 26.1269739643...
You are given two time series following similar pattern. Both of them have an anomaly. What is the likely type of anomaly in each time series?
[ "Time series 1 with cutoff anomaly and time series 2 with speed up/down anomaly", "Time series 1 with cutoff anomaly and time series 2 with flip anomaly", "Time series 1 with flip anomaly and time series 2 with speed up/down anomaly" ]
Time series 1 with flip anomaly and time series 2 with speed up/down anomaly
multiple_choice
[ 0, 0.42124198695938564, 0.83090733115382, 1.2177367432359048, 1.5710969410043558, 1.8812721422413385, 2.139730405892173, 2.3393575203097092, 2.4746520269261536, 2.541876033119409, 2.5391576800029316, 2.466542456163826, 2.3259919506727673, 2.121330079549828, 1.858138259793592, 1.5436024...
[ 0, 0.23039674350718967, 0.4570114374964873, 0.676125362936421, 0.8841454012982388, 1.077664201389556, 1.2535172355106539, 1.4088357895270742, 1.5410949995388061, 1.6481561307711834, 1.72830239072671, 1.780267676905957, 1.803257777716424, 1.7969636715597783, 1.7615667014040115, 1.697735...
74
hard
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "Cutoff Anomaly", "Flip Anomaly", "Speed Up/Down Anomaly" ]
You already know both time series have an anomaly. You should treat them separately and check the type of anomaly based on the given definitions.
Anolmaly Detection
General Anomaly Detection
646
null
The given time series has a trend and a cyclic component. It also has an anomaly. What is the most likely combination of components without the anomaly?
[ "Linear trend and sine wave", "Exponential trend and square wave", "Log trend and sawtooth wave" ]
Linear trend and sine wave
multiple_choice
null
null
70
hard
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "Linear Trend", "Sine Wave", "Exponential Trend", "Square Wave", "Log Trend", "Sawtooth Wave", "Cutoff Anomaly", "Flip Anomaly" ]
The anomaly only influences a small part of the time series. You should focus on the overall pattern of the time series without the anomaly. Can you recover the original pattern?
Anolmaly Detection
General Anomaly Detection
647
[ 0, 1.0662502528334412, 1.841662657111754, 2.115286966527466, 1.8140045407148413, 1.0226126392557902, -0.0394677659732362, -1.0784627410256156, -1.806939478712576, -2.022758601020846, -1.664597985566254, -0.8287967814133554, 0.25710711517848656, 1.2968773750812437, 2.0069496980529657, 2...
There are two time series given. Is one of them a scaled version of the other?
[ "No, they do not share similar pattern", "Yes, time series 2 is a scaled version of time series 1", "Yes, time series 1 is a scaled version of time series 2" ]
Yes, time series 1 is a scaled version of time series 2
binary
[ -0.028047203853005465, 2.7727871746817105, 5.2338487669657985, 7.508546531888259, 9.475348617040718, 11.246641627335256, 12.254419763206078, 13.082351878069518, 12.88496936198901, 12.23893433643948, 11.303673212995736, 9.828219198993851, 7.792852982489104, 5.175494148590023, 2.5660819935...
[ 0.14625105013216205, 0.31223168163763376, 0.7774247457844741, 1.1429468233850757, 1.3218922200360903, 1.720241358191679, 1.7770936166816695, 1.8937962059102285, 1.836189016931151, 1.8609687419681922, 1.5830475522364074, 1.4048635382284023, 1.1153931712376686, 0.7173549547689082, 0.211941...
86
hard
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "Sine Wave", "Moving Average Process" ]
Scaled version refers to the same pattern but with different amplitude. You should check if the pattern is the same for both time series. If they are the same, you should check the amplitude of the cyclic component.
Similarity Analysis
Shape
648
null
Piece-wise stationarity means a time series is stationary in distinct segments, with abrupt changes between segments. Each segment has its own constant statistical properties. Does the time series exhibit piecewise stationarity?
[ "No", "Yes" ]
Yes
binary
null
null
38
hard
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "Stationarity", "Linear Trend", "Gaussian White Noise" ]
Look for segments of the time series that are individually stationary, even if the whole series is not.
Pattern Recognition
Stationarity Detection
649
[ 2.328671422359127, 2.336934853005062, 2.2821835113631463, 2.001289314765369, 2.0976305643830253, 2.2003574927600797, 2.289676487724898, 2.3959795931613317, 2.4004569415895043, 2.207468728341432, 2.286548914457165, 2.373822839089889, 2.0856943054720984, 2.2700824231544554, 2.1999540977852...
What is the primary cyclic pattern observed in the time series?
[ "SquareWave", "SawtoothWave", "SineWave", "No Pattern at all" ]
SquareWave
multiple-choice
null
null
15
easy
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "Sine Wave", "Square Wave", "Sawtooth Wave" ]
Check the overall shape of the time series against the definition of provided concepts
Pattern Recognition
Cycle Recognition
650
[ -0.07664950838172752, 1.735924795370351, 1.5749475537287783, 1.6018462231964992, 1.6519621959437476, 1.7003606771188662, 1.6625832247903152, 1.6461131775023123, 1.583219827756473, 1.4846580836882328, 1.5649529020508075, 1.8004738114094914, 1.7016147461728708, 1.706470201664572, 1.7751563...
What type of noise is present in the given time series?
[ "Red Noise", "Gaussian White Noise", "No significant noise" ]
Red Noise
multiple_choice
null
null
62
medium
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "Gaussian White Noise", "Red Noise" ]
Observe the pattern of fluctuations in the time series.
Noise Understanding
Signal to Noise Ratio Understanding
651
[ 0.19882371795674486, -0.11515643025153635, 0.18167072095249626, 0.09671815041972673, 0.13569246431467416, -0.12582310713792122, 0.13674699888111735, 0.14202590650868074, -0.10318277936570193, 0.02576757972407885, -0.07155440327133421, 0.05119928138926417, -0.02932288208355365, 0.1709735437...
You are given two AR(1) process, which one of them is more likely to have a larger magnitude in autocorrelation at lag 1?
[ "Time Series 2", "Time Series 1" ]
Time Series 2
multiple_choice
[ -4.245971000189419, 5.70419085421008, -14.01306257300483, 7.569281494893113, 3.674339881007126, 14.699088741096084, -5.239867810763972, -6.85896433994246, -3.3212166562717775, -2.5294692604593494, -7.752342209476813, -5.176346737245326, -6.830727093853574, 8.681724484261949, 1.4657466198...
[ 8.001605022883828, 3.477964981487292, 13.598702708287831, 6.985482231978534, 31.434149155317414, 13.159489461194909, 24.210493782490154, 13.049756656482142, 19.618727966725857, 5.787119342870863, 22.096031858157225, 19.05503301258344, 16.219654815108566, 3.849934172518381, 7.514500662039...
47
hard
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "Autocorrelation", "AutoRegressive Process" ]
While it is hard to directly measure the autocorrelation for higher order lags, the autocorrelation at lag 1 can be approximated by observing the time series pattern. You can tell this by checking the sign and magnitude changes at each step compared to the previous step. You should compare the two time series to see which one has a larger magnitude in autocorrelation at lag 1.
Pattern Recognition
AR/MA recognition
652
null
What is the primary cyclic pattern observed in the time series?
[ "SquareWave", "SineWave", "SawtoothWave", "No Pattern at all" ]
SawtoothWave
multiple-choice
null
null
15
easy
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "Sine Wave", "Square Wave", "Sawtooth Wave" ]
Check the overall shape of the time series against the definition of provided concepts
Pattern Recognition
Cycle Recognition
653
[ -1.4613210219078643, -1.3789576517897828, -1.2412520503339484, -1.2375497382417162, -1.1672877941204913, -1.2724471049420794, -1.2695584024865232, -1.1544290494016192, -1.093010555331193, -1.1434205574324805, -1.1344290535564097, -1.0367033821737408, -1.1806215634758965, -1.161105156261919...
You are given two time series following similar pattern. One has an anomaly and the other does not. Which time series has the anomaly, and what is the likely type of anomaly?
[ "Time series 1 with speed up/down anomaly: the period of cyclic components is different from other parts of the time series", "Time series 2 with cutoff anomaly: the pattern of time series disappeared for certain point in time and became flat", "Time series 1 with flip anomaly: the pattern is flipped at certain...
Time series 1 with speed up/down anomaly: the period of cyclic components is different from other parts of the time series
multiple_choice
[ 0, 0.575046915443788, 1.1192844162916642, 1.6035821028583648, 2.0020761043180513, 2.293578577240172, 2.462732375534051, 2.50084796596999, 2.4063769800480874, 2.184996595147074, 1.8493001464494558, 1.4181108303070782, 0.9154559000265513, 0.3692572571351853, -0.19019020326948682, -0.7318...
[ 0, 0.23039674350718967, 0.4570114374964873, 0.676125362936421, 0.8841454012982388, 1.077664201389556, 1.2535172355106539, 1.4088357895270742, 1.5410949995388061, 1.6481561307711834, 1.72830239072671, 1.780267676905957, 1.803257777716424, 1.7969636715597783, 1.7615667014040115, 1.697735...
73
hard
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "Sine Wave", "Linear Trend", "Speed Up/Down Anomaly", "Cutoff Anomaly", "Flip Anomaly" ]
You should first identify the time series with the anomaly. Remember, both time series share similar pattern. Then, you should check the type of anomaly based on the given definitions.
Anolmaly Detection
General Anomaly Detection
654
null
Is time series 2 a lagged version of time series 1?
[ "No, time series 1 is a lagged version of time series 2", "No, they do not share similar pattern", "Yes" ]
No, they do not share similar pattern
multiple_choice
[ 0, 0.39745756723476344, 0.7827420011663946, 1.1440596965165584, 1.470364271316495, 1.7517009656271645, 1.9795170061991032, 2.146928260673693, 2.2489338677109565, 2.282572151410225, 2.247012958999755, 2.143583542935772, 1.9757271804714307, 1.74889582083465, 1.4703801070088451, 1.1490820...
[ -1.5642531221731026, -1.4560617673399299, -1.3478668310577417, -1.2396683065487477, -1.1314661870223308, -1.023260465675022, -0.9150511356904765, -0.8068381902394517, -0.6986216224797792, -0.5904014255563426, -0.4821775926010523, -0.37395011673282097, -0.26571899105753927, -0.1574842086680...
96
easy
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "Lagged Pair" ]
Focus on the time delay between the two time series. If time series 2 is a lagged version, then it should look the same to time series 1 after being shifted by a certain number of steps. Can you check this?
Causality Analysis
Granger Causality
655
null
You are given two time series where one is the lagged version of the other. What is the most likely lagging step?
[ "Lagging step is between 30 to 45", "Lagging step is between 60 to 75", "Lagging step is between 5 to 10" ]
Lagging step is between 5 to 10
multiple_choice
[ -0.0013754289483902376, -0.04275150676319949, -0.031847781617122435, -0.05180768350891339, -0.0757098122382775, -0.05954054325563682, -0.08983297840570464, -0.09261356055044742, -0.12053371194737127, -0.09482608096795708, -0.09787316304394096, -0.10820057539824526, -0.09545091657086406, -0...
[ -0.08983297840570464, -0.09261356055044742, -0.12053371194737127, -0.09482608096795708, -0.09787316304394096, -0.10820057539824526, -0.09545091657086406, -0.06064565048121035, -0.035430708313792456, -0.06241714141370359, -0.0882712690749651, -0.062275566576750235, -0.10852315604554531, -0....
98
easy
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "Lagged Pair" ]
You already know that one time series is the lagged version of the other. Shift the time series by lags proposed in the options and check which one looks the same as the other time series.
Causality Analysis
Granger Causality
656
null
Is the noise in the time series more likely to be additive or multiplicative to the signal?
[ "Additive", "Multiplicative" ]
Multiplicative
binary
null
null
59
hard
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "Additive Composition", "Multiplicative Composition", "Gaussian White Noise" ]
Additive noise is added to the signal, while multiplicative noise is multiplied to the signal. When a cyclic component is added with a white noise, the cyclic pattern still remains. When a cyclic component is multiplied with a white noise, the noise is amplified. Can you check if it is the case for the given time series?
Noise Understanding
Signal to Noise Ratio Understanding
657
[ 0, -1.9609694643923763, 0.004798046009538046, 1.3073400168354588, -7.104090052234058, 2.9424478083488617, 3.4686224199124456, -1.654464469221053, -0.16539497802029976, 1.9675245194882298, 8.372342096024758, 1.0384807394354174, -0.5700518600873368, -1.1244108730019742, 0.2537612901189047,...
Is the given time series likely to have an anomaly?
[ "Yes, it's pattern is distorted by random spikes or noises", "Yes, it's pattern is flipped at certain point in time", "No" ]
No
binary
null
null
63
easy
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "Flip Anomaly", "Spike Anomaly" ]
Anomaly is an observation that deviates from the general pattern in the time series. You should check if the time series has any sudden changes or unexpected patterns. If so, check the type of anomaly based on the given definitions.
Anolmaly Detection
General Anomaly Detection
658
[ 0, 0.44066008813091495, 0.8716326076097198, 1.2834468079511232, 1.6670607223805711, 2.014063536739274, 2.3168638325174022, 2.5688594909346585, 2.7645854554328593, 2.899836045497601, 2.971759084294625, 2.9789197334435213, 2.9213326062381357, 2.800461440585393, 2.619186338982524, 2.38173...
Two time series are given. Both of them have a noise component. Do they have the same level (variance) of noise?
[ "No, they have different level of noise", "Yes, they both have the same level of noise" ]
Yes, they both have the same level of noise
binary
[ -0.06330899133756138, 0.1571135161278696, 0.9399033190373091, 1.4184176380936981, 1.784308116213339, 2.0817713816133834, 2.3994135889595642, 2.5511403612819605, 2.7781666184870653, 3.0817588885994662, 3.0927464856292826, 2.952034193726728, 2.733779234931999, 2.56975622085269, 2.384866026...
[ -0.16048170552398477, 0.4264679778671915, 0.7303143743758185, 1.2516194718957638, 1.6257830225787835, 2.0099572401519676, 2.2277555019230872, 2.166589404482062, 2.221990705431228, 2.3214967387967067, 2.1792838990491274, 1.9774735922006073, 1.6601974738262042, 1.57774873785196, 0.99630033...
88
hard
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "Gaussian White Noise", "Variance" ]
Noise level refers to the amplitude of the random fluctuations in the time series. Both time series have a white noise component added to it. You should check the amplitude of the noise for both time series.
Similarity Analysis
Shape
659
null
The given time series has a trend and a cyclic component. It also has an anomaly. What is the most likely combination of components without the anomaly?
[ "Log trend and sawtooth wave", "Linear trend and sine wave", "Exponential trend and square wave" ]
Linear trend and sine wave
multiple_choice
null
null
70
hard
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "Linear Trend", "Sine Wave", "Exponential Trend", "Square Wave", "Log Trend", "Sawtooth Wave", "Cutoff Anomaly", "Flip Anomaly" ]
The anomaly only influences a small part of the time series. You should focus on the overall pattern of the time series without the anomaly. Can you recover the original pattern?
Anolmaly Detection
General Anomaly Detection
660
[ 0, 1.5823466554200292, 2.691670254812354, 2.997099592989048, 2.409348004152128, 1.1075455947768373, -0.5145925429199026, -1.9670847265608498, -2.8109309036263492, -2.7900399839367807, -1.90818977213094, -0.4278916701056481, 1.2084986734517582, 2.5117171119429536, 3.092623588598764, 2.7...
You are given two Autoregressive processes AR(1). Which of the following time series has higher standard deviation for their random component?
[ "Time series 2", "Time series 1" ]
Time series 2
multiple_choice
[ -0.8788663544406468, -0.846098711630608, -2.391645950949723, -2.3862069803090558, -1.6289580537122585, -1.9021413093800033, -0.44661141917271796, 0.02283158251846007, -1.129989641892816, -0.38040784874461653, 0.3450799965429919, 2.64429675566959, 1.8938498986926051, 1.2842594495596282, 0...
[ -0.08660074576776289, -5.149262602926662, -10.29105883502783, -17.980064898690465, -15.52473775950616, -13.84207150509128, 6.052152570736849, 11.453290922917692, 31.682989390276482, 10.899379377972124, 14.528443980886522, 14.705538737956072, 11.689032117815835, 4.868379977544825, 2.19012...
61
hard
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "AutoRegressive Process", "Variance" ]
The standard deviation of the noise component is related to the average distance between the data points and their past values. You should check the degree of variation of the time series over time. Which time series has a higher change in average?
Noise Understanding
Signal to Noise Ratio Understanding
661
null
Is the given time series likely to have an anomaly?
[ "No", "Yes, it's pattern is distorted by random spikes or noises", "Yes, it's pattern is flipped at certain point in time" ]
No
binary
null
null
63
easy
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "Flip Anomaly", "Spike Anomaly" ]
Anomaly is an observation that deviates from the general pattern in the time series. You should check if the time series has any sudden changes or unexpected patterns. If so, check the type of anomaly based on the given definitions.
Anolmaly Detection
General Anomaly Detection
662
[ 0, 0.3356035058522138, 0.6499055035573819, 0.9229777000499636, 1.137549707256016, 1.2801223884911512, 1.3418380887726038, 1.319051649102593, 1.2135653939291, 1.0325129431700395, 0.7878993389315455, 0.49582713293988484, 0.17545832544603374, -0.15222092513755564, -0.46575318810005595, -0...
Covariance stationarity in a time series means constant mean, constant variance and that autocovariance depends only on time lag, not absolute time. Is the given time series covariance-stationary?
[ "No", "Yes" ]
Yes
binary
null
null
36
hard
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "Stationarity", "AutoRegressive Process", "Linear Trend" ]
Check if the covariance between any two points depends only on the time distance between them.
Pattern Recognition
Stationarity Detection
663
[ 1.931953241908038, 24.61584436069855, -10.836079297323447, -23.991082254587674, -13.663983308845047, -12.155714864926143, 2.459481231914774, -10.471204290732297, 2.9286517529697074, 9.178667014842008, -2.4183749003202912, -22.110570246933104, -15.076510539059251, -24.513063188186155, -11...
The given time series has a cycle component and a trend component. Is it an additive or multiplicative model between the two components?
[ "Multiplicative", "Additive" ]
Additive
multiple_choice
null
null
11
easy
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "Linear Trend", "Sine Wave", "Additive Composition", "Multiplicative Composition" ]
For a multiplicative composition, the amplitude of the cyclic component will increase or decrease depending on the trend component.
Pattern Recognition
Trend Recognition
664
[ -0.19536133035877717, 0.4939313213615385, 0.8717007819547447, 1.002127495004465, 1.3888562686991095, 1.71697824883053, 1.9441463338633946, 2.2040261577080855, 2.782179368267751, 2.6262941604708576, 2.817859993420842, 2.8853050867458183, 2.9009642887476357, 2.777119028625951, 2.9380916756...
The given time series has an increasing trend, is it a linear trend or log trend?
[ "Log", "Linear" ]
Linear
multiple_choice
null
null
7
hard
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "Linear Trend", "Log Trend" ]
Check if the slope of the time series is constant or changes over time.
Pattern Recognition
Trend Recognition
665
[ 0.1545862380243895, -0.6819701841338686, -0.3785697173477379, 0.05338397885934579, 0.10496073438741785, 0.2099086123979687, 0.6838611354500279, -0.01203785234301049, 0.20594518703932702, 0.06861846887901138, -0.07095369235404775, -0.04823254066146485, -0.3114118840222826, 0.004700166851469...
Are the two time series flipped versions of each other despite noise?
[ "Yes, they are flipped versions", "No, they are not flipped versions" ]
Yes, they are flipped versions
binary
[ -0.05836515625907063, 0.1309849485661309, 0.5903798879991247, 0.6940703934028811, 1.077524284190062, 1.1605994615925432, 1.1903549919425145, 1.4911499092174145, 1.9324501431540333, 1.773975799907722, 1.9100900012915059, 1.9615129207879616, 2.028653006023782, 1.9396521477148752, 2.0182675...
[ -0.1076178838596761, -0.1794856171723031, -0.34961462899505247, -0.8165899438988004, -0.9907552502170276, -1.0710951309851315, -1.5688533903565853, -1.40649418185136, -1.839362911903542, -2.0460839706104075, -2.196256341890833, -2.1057450111868063, -2.14610500615185, -2.2027502412656745, ...
90
hard
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "Linear Trend" ]
Both time series have a trend and a cyclic component. Then we say two time series are flipped versions of each other, we mean that the sign of each step is flipped. You should check if the sign of each step is flipped for both time series. At a high level, you should check if the time series are mirror images of each other.
Similarity Analysis
Shape
666
null
Is time series 2 a lagged version of time series 1?
[ "No, they do not share similar pattern", "Yes", "No, time series 1 is a lagged version of time series 2" ]
Yes
multiple_choice
[ 0.05189014428052703, 0.08238851835426123, 0.14828417681063644, 0.2626935583755339, 0.24613482966870848, 0.2267186502244129, 0.23827186254513877, 0.20008920498828522, 0.23040598584580188, 0.18096742821428785, 0.20776256151317657, 0.292058227411461, 0.21890921176930045, 0.1928834793336523, ...
[ -0.02982930320508954, -0.09704165128816732, -0.06273638745266036, -0.015469793388207684, 0.01979604900237287, 0.055764721359340116, 0.08823824456236716, 0.07411566224613357, -0.002347502436337509, 0.01570454036546793, -0.003018002014808365, -0.018409276701842836, 0.0473317702863532, 0.1100...
96
easy
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "Lagged Pair" ]
Focus on the time delay between the two time series. If time series 2 is a lagged version, then it should look the same to time series 1 after being shifted by a certain number of steps. Can you check this?
Causality Analysis
Granger Causality
667
null
The time series has three cyclic pattern composed additively. Which cycle pattern is most dominant in the given time series in terms of amplitude?
[ "SquareWave", "SawtoothWave", "SineWave" ]
SquareWave
multiple-choice
null
null
20
hard
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "Sine Wave", "Square Wave", "Sawtooth Wave", "Additive Composition", "Amplitude" ]
The cyclic patterns have different period and amplitude. The dominant pattern is the one that has the highest amplitude. Identify the pattern with the highest peak.
Pattern Recognition
Cycle Recognition
668
[ 0.007693252930944264, 5.023757574871562, 4.957821868721599, 5.196020361412095, 5.12013085384738, 4.996920834486795, 5.059776481375653, 5.131977038174252, 5.038014185884609, 5.153723486762691, 5.206010330765606, 5.141660431403468, 5.207514084084977, 5.224772405014451, 5.249404833786792, ...
The given time series has an increasing trend, is it a linear trend or log trend?
[ "Log", "Linear" ]
Log
multiple_choice
null
null
7
hard
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "Linear Trend", "Log Trend" ]
Check if the slope of the time series is constant or changes over time.
Pattern Recognition
Trend Recognition
669
[ -0.13783063942431734, 0.2488896578173335, 0.2760228264040907, 0.028031901574983024, 0.20243471035568544, 0.007327919555071824, -0.013468633548081643, 0.36678541716328905, 0.27536716679315776, 0.23368214631400044, 0.3149683034971148, 0.1940783524327137, 0.29194946078071227, 0.32581364535074...
The given time series has a cycle component and a trend component. Is it an additive or multiplicative model between the two components?
[ "Multiplicative", "Additive" ]
Multiplicative
multiple_choice
null
null
11
easy
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "Linear Trend", "Sine Wave", "Additive Composition", "Multiplicative Composition" ]
For a multiplicative composition, the amplitude of the cyclic component will increase or decrease depending on the trend component.
Pattern Recognition
Trend Recognition
670
[ -0.046540038935718245, 0.12055488895148966, 0.04440130041173475, -0.0035903739624394623, 0.021356030855446483, 0.19302754590515928, 0.33701041362762973, 0.2384919559929352, 0.08517585423749277, 0.10280754927277314, 0.1364992445340036, -0.12746890059447144, -0.04375851792783137, -0.12177282...
There are two time series given. Is one of them a scaled version of the other?
[ "Yes, time series 1 is a scaled version of time series 2", "Yes, time series 2 is a scaled version of time series 1", "No, they do not share similar pattern" ]
No, they do not share similar pattern
binary
[ -0.06008443311997367, 0.5422424678298738, 0.7918823805343186, 1.2079468944187324, 1.5388912461542166, 2.013832317494469, 2.0112918260398787, 2.1795248031306556, 2.4685741901544604, 2.607841295539808, 2.5989104907638745, 2.508807678930802, 2.376477718252347, 2.190850484958814, 2.193061779...
[ 0.23114696701055193, 2.532046796912497, -1.0660501429023017, 1.3373982893970868, 2.6089993282060973, -0.15401244551551674, 2.4177972831264802, 2.3785041934058118, -0.3660830987702616, 2.8370717846344893, 1.494008697115091, 1.934751156613968, -1.495437685516375, 2.8060828435132037, 0.0807...
86
hard
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "Sine Wave", "Moving Average Process" ]
Scaled version refers to the same pattern but with different amplitude. You should check if the pattern is the same for both time series. If they are the same, you should check the amplitude of the cyclic component.
Similarity Analysis
Shape
671
null
Two time series are given. One has noise and the other does not. Do they have similar pattern?
[ "No, they have different seasonal pattern: Square Wave and Swatooth Wave", "Yes, they are all Sine Wave" ]
No, they have different seasonal pattern: Square Wave and Swatooth Wave
binary
[ -1.2804326698863924, -1.1664848388532554, -0.8828599037110162, -1.2440683938938202, -0.8282811087005866, -0.6924739783089018, -1.0535227912188767, -0.919221758363771, -0.5745243562061407, -0.20605287228024116, -0.18297029114008845, -0.47447638646290113, -0.00019125752928855766, -0.27524079...
[ 0, 2.9995379297447213, 2.9995379297447213, 2.9995379297447213, 2.9995379297447213, 2.9995379297447213, 2.9995379297447213, 2.9995379297447213, 2.9995379297447213, 2.9995379297447213, 2.9995379297447213, 2.9995379297447213, 2.9995379297447213, 2.9995379297447213, -2.9995379297447213, -2...
82
hard
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "Sine Wave", "Sawtooth Wave" ]
Noise refers to the random fluctuations in the time series. You should focus on the overall pattern of the time series. Pattern refers to the general shape of the time series. In this case, you see both time series have cyclic patterns. Do their behaviors at peak and trough look similar?
Similarity Analysis
Shape
672
null
Is the mean stable over time in the given time series?
[ "No", "Yes" ]
No
binary
null
null
43
easy
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "Mean" ]
Check if the average value of the time series changes over time.
Pattern Recognition
First Two Moment Recognition
673
[ 5.527358140321063, 5.466475922507407, 5.47191976241419, 5.469186692467949, 5.509677465969295, 5.525281199735489, 5.423555676753798, 5.67026430097843, 5.439631836249503, 5.686400968422367, 5.579831701322504, 5.394936970698494, 5.570558862708683, 5.49616642451953, 5.522428092349738, 5.41...
Does time series 1 granger cause time series 2?
[ "Yes, time series 1 granger causes time series 2", "No, they are not granger causal", "No, time series 2 granger causes time series 1" ]
No, time series 2 granger causes time series 1
binary
[ -0.0031395591655752455, 0.19816714001867855, 1.1931948362771747, 1.3236951506212289, 3.1097377897751524, 1.7587133299098612, 1.1356846855876819, -0.33036242753955103, -0.3267932994722671, 0.2162701760371178, -1.9221475210577013, -2.533911766965972, -3.1810080422705123, -3.454316647891957, ...
[ -0.0031395591655752455, 0.00931791842516486, -0.023622962256223044, -0.0631986973674983, -0.09017069420407753, -0.09273891224558797, -0.09640176233267442, -0.08911672003377663, -0.14258291717068936, -0.13858940114664134, -0.178440527358601, -0.209061788100812, -0.18460376847545296, -0.2321...
101
hard
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "Granger Causality" ]
Granger causality is a statistical concept that determines whether one time series can predict another. While you cannot perform the statistical test, you can check if one time series can predict the other by shifting the time series by a certain number of steps. Do they look simiar after the shift?
Causality Analysis
Granger Causality
674
null
The following time series has a noise component, a trend component, and a cyclic component. Is the noise component more likely to be a white noise or random walk?
[ "Random Walk", "White Noise" ]
White Noise
binary
null
null
52
hard
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "Red Noise", "Gaussian White Noise" ]
White noise is a stationary process with a constant mean and variance. You should check if the time series has a constant mean and variance over time. This can help you distinguish between white noise and random walk.
Noise Understanding
White Noise Recognition
675
[ 0.5791551570320229, 0.7284724182115059, 0.675744039599385, 1.666953818331711, 1.1551087520278098, 1.6476640287427728, 0.8164529620002957, 0.48144278887478964, 1.2839732731195406, 0.11419280905083207, 0.30346676494222485, -0.5415612883782502, -0.41872677521122825, -1.167021900419735, -0.8...
The time series has three cyclic pattern composed additively. Which cycle pattern is most dominant in the given time series in terms of amplitude?
[ "SawtoothWave", "SquareWave", "SineWave" ]
SquareWave
multiple-choice
null
null
20
hard
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "Sine Wave", "Square Wave", "Sawtooth Wave", "Additive Composition", "Amplitude" ]
The cyclic patterns have different period and amplitude. The dominant pattern is the one that has the highest amplitude. Identify the pattern with the highest peak.
Pattern Recognition
Cycle Recognition
676
[ -0.1122431064803032, 4.964208039703431, 5.243052849319062, 5.279223817896398, 5.172939573301595, 5.152976562478086, 5.312554827598877, 5.483348681771034, 5.520221169425594, 5.497957313879405, 5.608097303160648, 5.422930117825639, 5.440472617519769, 5.594693676770976, 5.2696901184495815, ...
Does the following time series exhibit a mean reversion property?
[ "Yes", "No" ]
No
binary
null
null
46
easy
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "Mean Reversion" ]
Mean reversion first requires the time series have constant mean. You should check this first. Then, see if the time series tends to revert back to the mean after a shock.
Pattern Recognition
AR/MA recognition
677
[ 0, 0.00016599902565141787, 0.00033199805130283575, 0.0004979970769542536, 0.0006639961026056715, 0.0008299951282570893, 0.0009959941539085073, 0.0011619931795599251, 0.001327992205211343, 0.0014939912308627608, 0.0016599902565141787, 0.0018259892821655965, 0.0019919883078170146, 0.00215798...
The following time series has an anomaly. What is the most likely type of anomaly?
[ "Scale: the pattern is at obviously different scale at certain point in time", "Cutoff: the pattern of time series disappeared for certain point in time and became flat" ]
Cutoff: the pattern of time series disappeared for certain point in time and became flat
multiple_choice
null
null
65
hard
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "Cutoff Anomaly", "Scale Anomaly", "Wander Anomaly" ]
Anomaly is an observation that deviates from the general pattern in the time series. You should check if the time series has any sudden changes or unexpected patterns. If so, check the type of anomaly based on the given definitions.
Anolmaly Detection
General Anomaly Detection
678
[ -2.9014286128198323, -2.5585759147879372, -2.215723216756042, -1.8728705187241466, -1.5300178206922517, -1.1871651226603563, -0.8443124246284608, -0.501459726596566, -0.15860702856467088, 0.18424566946722432, 0.5270983674991194, 0.8699510655310151, 1.2128037635629108, 1.5556564615948054, ...
You are given two Autoregressive processes AR(1). Which of the following time series has higher standard deviation for their random component?
[ "Time series 1", "Time series 2" ]
Time series 1
multiple_choice
[ 5.057322054947175, 6.609721690580754, -17.833737169136704, -31.04229503893869, -22.394210559855388, -18.2858431983749, -7.220497144621041, -20.739252594442036, -14.722220376759273, -9.38069817751574, -5.1098452444888816, -10.261355367257108, 4.06788944482715, 7.895214308758589, -3.844953...
[ 2.1009355613346514, 1.5236961114974321, 1.1745903075773825, 0.5437940654386744, 0.5335486902208976, 0.8623667621937692, -0.3139905054095975, 0.09452218532672885, 1.5203114805501112, 2.750764141855381, 2.227275424090753, 2.280114877921425, 2.2821497715405012, 1.904520535508207, 0.56905802...
61
hard
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "AutoRegressive Process", "Variance" ]
The standard deviation of the noise component is related to the average distance between the data points and their past values. You should check the degree of variation of the time series over time. Which time series has a higher change in average?
Noise Understanding
Signal to Noise Ratio Understanding
679
null
Is the given time series likely to be a random walk process?
[ "No", "Yes" ]
Yes
binary
null
null
53
easy
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "Red Noise" ]
Random walk is a non-stationary process with a constant mean and variance. You should check if the time series has a constant mean and variance over time. Another important property is that the noise is correlated over time. Does the time series seem to have these properties?
Noise Understanding
Red Noise Recognition
680
[ -0.1027639494420987, -0.17997794625677305, -0.01969671777708445, 0.11794670567225518, 0.18574443672160643, 0.24849715552948876, 0.3495904268757386, 0.17946738475524246, -0.0982971668124129, 0.2662892262714003, 0.3530296324528738, 0.11443343498196475, 0.15241363984528616, 0.0423928446935297...
Which of the following best describe the cycle pattern in the given time series?
[ "Amplitude increase over time", "Amplitude remain the same over time", "Amplitude decrease over time" ]
Amplitude increase over time
multiple-choice
null
null
28
hard
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "Sine Wave", "Amplitude" ]
Check the distance between the peak and the baseline, and see how it changes over time.
Pattern Recognition
Cycle Recognition
681
[ -0.14144854575594307, 0.3663527474827045, 0.49521628021734365, 0.7273619915821826, 1.025361577211727, 1.280567757513994, 1.3767311057622513, 1.5909828433222093, 1.5711049967171224, 1.6376345114612954, 1.631322437171135, 1.7606586154683137, 1.6352277140533464, 1.4207138212749975, 1.121660...
You are given two time series following similar pattern. Both of them have an anomaly. What is the likely type of anomaly in each time series?
[ "Time series 1 with cutoff anomaly and time series 2 with speed up/down anomaly", "Time series 1 with flip anomaly and time series 2 with speed up/down anomaly", "Time series 1 with cutoff anomaly and time series 2 with flip anomaly" ]
Time series 1 with cutoff anomaly and time series 2 with speed up/down anomaly
multiple_choice
[ 0, 0.43852959515322637, 0.79259533450712, 0.9939258060262572, 1.0035302552035137, 0.8191734462737033, 0.47580417603270936, 0.03885529049693796, -0.40830035147065663, -0.7803331684780571, -1.0063152673706832, -1.0433179271531152, -0.884641402068725, -0.5610993201790448, -0.135111447246893...
[ 0, 0.5582175377966975, 1.0594875534668133, 1.452719714411114, 1.6979356410640847, 1.7703807793225672, 1.6630704659342566, 1.3875083179012397, 0.9725030578217274, 0.46120546752741515, -0.09332977354327984, -0.6336008896454223, -1.1035732045717332, -1.4544424427830593, -1.6496543664514491,...
74
hard
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "Cutoff Anomaly", "Flip Anomaly", "Speed Up/Down Anomaly" ]
You already know both time series have an anomaly. You should treat them separately and check the type of anomaly based on the given definitions.
Anolmaly Detection
General Anomaly Detection
682
null
The given timeseries is a combination of trend, seasonality and noise. Can you identify the pattern despite the noise?
[ "Yes, Linear Trend and Sine Wave", "Noise dominated" ]
Yes, Linear Trend and Sine Wave
multiple_choice
null
null
13
hard
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "Linear Trend", "Sine Wave", "Gaussian White Noise" ]
Identify which component (trend, seasonality, or noise) has the largest impact on the overall pattern.
Pattern Recognition
Trend Recognition
683
[ -0.11326575387198948, 0.2033203181838535, 0.9167032753766892, 0.43964017091080954, 0.9198174916260615, 1.6365204875808435, 1.651697310065527, 1.047764503194227, 1.2408847240329146, 2.8984455275210914, 2.0730055240081144, 2.189948328737172, 2.3906362871703886, 2.7621516777831183, 1.671093...
What is the direction of the linear trend of the given time series, if any?
[ "Downward", "No Trend", "Upward" ]
No Trend
multiple_choice
null
null
4
easy
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "Linear Trend" ]
Check if the time series values increase or decrease over time.
Pattern Recognition
Trend Recognition
684
[ 2.0488079094694704, 2.003895540447819, 2.0420957044454653, 2.0182208979109713, 1.9951480535931134, 2.0130114049975565, 2.0334953870472883, 2.061298497630306, 2.051503041564753, 2.0269651091304963, 2.0526995798699135, 2.025682538103062, 2.0031224057101475, 2.0333643404775352, 2.0023209734...
Are the given two time series likely to have the same underlying distribution?
[ "Yes, they have the same underlying distribution: AR(1)", "No, they have different underlying distribution: AR(1) and MA(5)" ]
Yes, they have the same underlying distribution: AR(1)
binary
[ 10.650633026304577, 21.776879963159878, 27.61407889039375, 13.907049968552322, 26.025848486473365, 3.9754676248237466, -11.506831945763341, -6.652371860347246, 1.261313820966567, -7.851829532673506, 0.20459273003434042, -10.601483731475986, -7.910938828693649, -13.715430345914346, 6.6041...
[ 4.8940041983684885, 12.863662110953655, 1.6563198291423245, 14.414117694178017, 9.246056863737275, 17.246320540305312, 26.675340922331408, 32.31373320743602, 20.244859209035877, 27.18705789601499, 14.464656562378407, 4.294737313090604, 6.310710756453039, -5.96256923207468, 11.75025182628...
92
hard
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "AutoRegressive Process", "Moving Average Process" ]
The difference between AR(1) and MA(1) is that AR(1) is a linear combination of past values and white noise, while MA(1) is a linear combination of past white noise values. You should check if the time series exhibit any dependency on the previous values. This could give you a clue about whether the time series is AR(1) or not. Check this for both time series.
Similarity Analysis
Distributional
685
null
The given time series has square wave pattern. How does its period change from the beginning to the end?
[ "Decrease", "Increase", "Remain the same" ]
Remain the same
multiple-choice
null
null
18
hard
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "Square Wave", "Period" ]
Base on the definition of period, check if the time interval between two peaks remains the same.
Pattern Recognition
Cycle Recognition
686
[ -0.10735799881492834, 2.831336556918199, 2.6286355094134506, 2.653157690502642, 2.9492555790021457, 2.7463215167528454, 2.8246456939998286, 2.7450479462289046, 2.804484605207342, 2.688411087774468, 2.81142598777715, 2.9010753608780115, 2.937099266793648, 2.8960429806641255, 2.77319025615...
The given time series has multiple trends followed by each other, what is the correct ordering of the trend components?
[ "Log", "Exponential -> Linear -> Log", "Linear -> Exponential", "Linear -> Exponential -> Log" ]
Log
multiple_choice
null
null
9
hard
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "Linear Trend", "Exponential Trend", "Log Trend" ]
Identify the different components first, and then check the assignment of each component.
Pattern Recognition
Trend Recognition
687
[ 0.15329294733270804, 0.1031456100984484, -0.054415267891242715, -0.015609599156530506, -0.059062863616680644, 0.14366708507308462, 0.07862180949596878, -0.1377947573881928, 0.07102215146957411, 0.1031004333068356, 0.16628403331758174, 0.016115963324090765, 0.1958134351741295, 0.34814003606...
Is the noise in the time series more likely to be additive or multiplicative to the signal?
[ "Additive", "Multiplicative" ]
Multiplicative
binary
null
null
57
easy
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "Additive Composition", "Multiplicative Composition", "Gaussian White Noise" ]
Additive noise is added to the signal, while multiplicative noise is multiplied to the signal. When a trend component is added with a white noise, the general trend still remains. When a trend component is multiplied with a white noise, the noise is amplified. Can you check if it is the case for the given time series?
Noise Understanding
Signal to Noise Ratio Understanding
688
[ 0, -0.0027277630910254387, 0.00904162136607088, 0.024390096309521662, 0.0021653781996584876, -0.013379755786621464, 0.03267194576083177, 0.008250687804993445, 0.09664972895673708, -0.05997298490878561, -0.08742877226659163, 0.10838987737711957, -0.059309012600415066, -0.040405676192527516,...
You are given two time series where one is the lagged version of the other. What is the most likely lagging step?
[ "Lagging step is between 30 to 45", "Lagging step is between 5 to 10", "Lagging step is between 60 to 75" ]
Lagging step is between 30 to 45
multiple_choice
[ 0.07496359398448171, 0.11632439785457091, 0.09161584824651534, 0.12802191067792584, 0.1256208793997229, 0.08971467142745168, 0.0641885886079088, 0.052214497596548656, 0.15186441786167446, 0.13226823641994156, 0.14086383509853728, 0.11853057568600285, 0.08636351394539392, 0.0674855557873237...
[ -0.18634232008756588, -0.2378610456611618, -0.23333154792593166, -0.2466016992361241, -0.23485555919372936, -0.202486966090479, -0.22762499034653305, -0.2405038485989149, -0.2477292743047258, -0.3111075196723669, -0.30976742811414426, -0.3407630791173387, -0.2805622977713946, -0.3053325716...
98
easy
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "Lagged Pair" ]
You already know that one time series is the lagged version of the other. Shift the time series by lags proposed in the options and check which one looks the same as the other time series.
Causality Analysis
Granger Causality
689
null
Two time series are given. One has noise and the other does not. Do they have similar pattern?
[ "No, they have different seasonal pattern: Square Wave and Swatooth Wave", "Yes, they are all Sine Wave" ]
Yes, they are all Sine Wave
binary
[ 0.3965811380183075, 0.22305877124530932, 0.4562643459070593, 0.882255201005563, 1.212665092935194, 1.0637639644362944, 1.6269259450085272, 1.4891465811351514, 1.9658246527749135, 1.6685464372254868, 1.9860803849466355, 1.8738124731080508, 1.629777230197659, 1.5253448263859162, 1.57804484...
[ 0, 0.5645942082578386, 1.1104427022663605, 1.6194221648847875, 2.0746334082974016, 2.4609624625638813, 2.765582391184408, 2.9783791723481885, 3.0922875057129127, 3.1035253952243522, 3.011719719333498, 2.8199186194161285, 2.534490295073244, 2.1649115665210923, 1.7234532242437646, 1.2247...
82
hard
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "Sine Wave", "Sawtooth Wave" ]
Noise refers to the random fluctuations in the time series. You should focus on the overall pattern of the time series. Pattern refers to the general shape of the time series. In this case, you see both time series have cyclic patterns. Do their behaviors at peak and trough look similar?
Similarity Analysis
Shape
690
null
The given time series has square wave pattern. How does its period change from the beginning to the end?
[ "Remain the same", "Increase", "Decrease" ]
Remain the same
multiple-choice
null
null
18
hard
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "Square Wave", "Period" ]
Base on the definition of period, check if the time interval between two peaks remains the same.
Pattern Recognition
Cycle Recognition
691
[ -0.056451479227273664, 1.2752588590636724, 1.2853439959142192, 1.3346757611564521, 1.4345672364850384, 1.2769032382147565, 1.2245303367103408, 1.2225653527786418, 1.280220885931044, 1.2765269771399332, 1.2628853744643862, 1.3354618574600727, 1.3187516756305622, 1.3945122335180953, 1.2231...
The given time series is a sawtooth wave. What is the most likely amplitude of the sawtooth wave?
[ "5.66", "19.1", "1.06" ]
1.06
multiple-choice
null
null
23
easy
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "Sawtooth Wave", "Amplitude" ]
Check the distance between the peak and the baseline.
Pattern Recognition
Cycle Recognition
692
[ -1.0620050265782384, -0.9800258759995215, -1.1751428869901657, -1.0060757276608672, -0.8019704862447643, -0.835933401596128, -0.9482789544117858, -0.9138383573406794, -0.8500369624202628, -0.6636870992657592, -0.5564731002467318, -0.5739630295283789, -0.4249485085227922, -0.328460722461989...
What is the type of the trend of the given time series?
[ "Exponential", "No Trend", "Linear" ]
No Trend
multiple_choice
null
null
1
easy
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "Linear Trend", "Exponential Trend" ]
It would be helpful to check if slope of the time series changes over time.
Pattern Recognition
Trend Recognition
693
[ 3.497646016490611, 3.4814154827491937, 3.5313525922865474, 3.604885667577352, 3.5694462867151593, 3.476108495962996, 3.496636337964091, 3.5302188935221173, 3.6235725261811034, 3.5109611321322376, 3.511247113458318, 3.5983756819515538, 3.5511478988494813, 3.5815607671976664, 3.51846976771...
Which of the following time series is more likely to be an MA(1) process?
[ "Time Series 2", "Time Series 1" ]
Time Series 1
multiple_choice
[ 10.893916189916736, 11.158106932396446, 10.965907131714577, 11.322717319417375, 10.85336966911018, 8.860044978598754, 10.71215965301222, 9.788658742292979, 10.036859190352938, 10.955595792911247, 10.900815226062651, 9.792513367981964, 9.205944443074824, 9.390819193320773, 9.6121640108192...
[ -0.7374517297223843, 0.7919531995924372, 0.8666245503121597, 0.03748335194184316, -0.6133396469292742, 1.89200503511493, 0.20021127117503895, -0.6672853313116287, 0.4559726023709495, -0.6531319598345863, 0.08724694075729802, 1.6722844342970067, -0.6331277584777566, 1.0352190175318514, 1....
49
hard
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "Moving Average Process", "Stationarity" ]
MA(1) process is a stationary process with a constant mean and variance. You should check if the time series has a constant mean and variance over time. The other option is likely not stationary.
Pattern Recognition
AR/MA recognition
694
null
Does the following time series exhibit a mean reversion property?
[ "Yes", "No" ]
No
binary
null
null
46
easy
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "Mean Reversion" ]
Mean reversion first requires the time series have constant mean. You should check this first. Then, see if the time series tends to revert back to the mean after a shock.
Pattern Recognition
AR/MA recognition
695
[ 0, 0.001227318630871506, 0.002454637261743012, 0.0036819558926145185, 0.004909274523486024, 0.00613659315435753, 0.007363911785229037, 0.008591230416100543, 0.009818549046972049, 0.011045867677843555, 0.01227318630871506, 0.013500504939586567, 0.014727823570458074, 0.01595514220132958, 0...
What is the most likely mean of the given time series?
[ "20.28", "-18.96", "0.48" ]
20.28
multiple_choice
null
null
41
easy
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "Mean" ]
The given time series is stationary. Check the average value of the time series over time.
Pattern Recognition
First Two Moment Recognition
696
[ 20.486972306461187, 20.072534156082426, 20.30607544293791, 20.47086320596062, 20.14001368474083, 20.2370705096504, 20.247595273748146, 20.43489645746842, 20.303293692524672, 20.62643481909255, 20.502319487119276, 20.39173673608326, 20.45132408479023, 20.219759677036894, 20.13492389772281...
Covariance stationarity in a time series means constant mean, constant variance and that autocovariance depends only on time lag, not absolute time. Is the given time series covariance-stationary?
[ "Yes", "No" ]
No
binary
null
null
36
hard
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "Stationarity", "AutoRegressive Process", "Linear Trend" ]
Check if the covariance between any two points depends only on the time distance between them.
Pattern Recognition
Stationarity Detection
697
[ 1.4521866096286464, 7.335027150976141, -5.295049529953332, 10.615897286051256, 11.723712575345832, 14.175442173086086, 12.312705510387831, 10.026769180168264, 25.135163813373648, 16.161408184396652, 5.831003191434549, 9.71014104741591, -8.469912584684772, 3.620881690391755, 4.46111839979...
The given time series is a sawtooth wave. What is the most likely amplitude of the sawtooth wave?
[ "5.93", "2.7", "15.34" ]
2.7
multiple-choice
null
null
23
easy
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "Sawtooth Wave", "Amplitude" ]
Check the distance between the peak and the baseline.
Pattern Recognition
Cycle Recognition
698
[ -2.699313245459988, -2.4391039212375802, -2.1965849101940487, -2.0167491494071323, -2.1130688670290185, -1.6644320998387108, -1.3464071535676094, -1.3569518871050437, -0.9423653381305299, -0.7641456628271066, -0.751600804122431, -0.4819110403307419, -0.36455500202411706, 0.0201793788409103...
What is the direction of the linear trend of the given time series, if any?
[ "Downward", "No Trend", "Upward" ]
Downward
multiple_choice
null
null
4
easy
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "Linear Trend" ]
Check if the time series values increase or decrease over time.
Pattern Recognition
Trend Recognition
699
[ -0.02699100817915274, -0.06171976487428537, 0.110333073546729, 0.014286395319147448, 0.17895818390783183, -0.06630181908760481, 0.04753918963782924, -0.035611350137323666, 0.14474451831982837, -0.03242708884490574, 0.08402004704927243, -0.13160026777951464, -0.05913118355972242, -0.0234431...
Is the given time series likely to be stationary after removing the cycle component?
[ "Yes", "No" ]
No
binary
null
null
35
easy
Please answer the question and provide the correct option letter, e.g., A), B), C), D), and option content at the end of your answer. All information need to answer the question is given. If you are unsure, please provide your best guess.
[ "Stationarity", "Sine Wave", "Square Wave" ]
Cycle component brings the cyclic pattern to the time series. Assume this effect is removed, does the time series satisfy the stationarity condition?
Pattern Recognition
Stationarity Detection
700
[ 0.012973550121341607, 1.2070325303921055, 1.416733474643075, 1.339400117630563, 1.420967171883697, 1.3437562178318765, 1.4055198666565352, 1.3819209936521166, 1.327576983265513, 1.2961742680761572, 1.4350552791066777, 1.1762014234331812, 1.1960475593498556, -1.137866956593054, -1.3434715...