images images listlengths 1 1 | problem stringclasses 1 value | answer listlengths 2 2 |
|---|---|---|
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
1,
3
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
2,
3
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
2,
3
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
4,
6
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
1,
3
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
1,
3
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
2,
6
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
4,
6
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
2,
4
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
2,
3
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
1,
6
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
3,
6
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
3,
6
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
3,
6
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
2,
3
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
2,
3
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
3,
6
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
3,
6
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
2,
3
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
2,
3
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
1,
6
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
4,
6
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
2,
3
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
3,
6
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
2,
6
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
3,
6
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
1,
6
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
2,
3
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
2,
4
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
2,
6
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
2,
4
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
4,
6
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
2,
3
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
1,
4
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
4,
6
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
1,
3
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
1,
6
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
2,
4
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
1,
3
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
1,
6
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
2,
6
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
2,
3
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
1,
4
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
2,
6
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
2,
4
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
4,
6
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
2,
3
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
1,
4
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
1,
3
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
1,
4
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
2,
4
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
1,
3
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
1,
6
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
4,
6
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
1,
4
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
3,
6
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
2,
6
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
4,
6
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
1,
4
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
1,
6
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
2,
3
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
4,
6
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
2,
4
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
2,
6
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
3,
6
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
1,
4
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
4,
6
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
1,
6
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
1,
6
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
1,
4
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
2,
4
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
3,
6
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
2,
6
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
2,
4
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
1,
3
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
2,
6
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
1,
3
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
2,
6
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
2,
4
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
2,
3
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
1,
4
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
3,
6
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
1,
4
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
1,
6
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
2,
3
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
2,
4
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
1,
4
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
4,
6
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
3,
6
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
1,
4
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
1,
4
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
2,
4
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
1,
3
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
1,
6
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
1,
4
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
1,
4
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
1,
6
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
2,
6
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
2,
3
] | |
<image>You are controlling a robotic arm in a 3D space. The end-effector can move in six directions: 1 = +x (forward), 2 = -x (backward), 3 = +y (right), 4 = -y (left), 6 = -z (down). The image you see is split horizontally into two halves: the UPPER half is a top-down view taken from directly above the end-effector, while the LOWER half is the default oblique perspective view that shows the whole robot, table, and cube. You need to execute two consecutive actions to reach the green cube. Based on this image alone, choose two numbers from [1,2,3,4,6] representing the actions. The green cube always appears near the end-effector's reachable zone. Output only the final answer inside <answer>…</answer>, in the format <answer>n, n</answer> for the two actions. | [
1,
3
] |
End of preview. Expand
in Data Studio
README.md exists but content is empty.
- Downloads last month
- 158