Datasets:

premxai
/

emotion-engine

	---
	license: mit
	language:
	- en
	tags:
	- generative-agents
	- emotion
	- multi-agent
	- simulation
	- reinforcement-learning
	- cognitive-science
	- occ-theory
	- predictive-processing
	task_categories:
	- reinforcement-learning
	- text-classification
	size_categories:
	- 100K<n<1M
	pretty_name: "Emotion Engine: Emergent Emotional Appraisal in Generative Agents"
	---

	# Emotion Engine Dataset

	204,520 agent-step records from a five-condition controlled experiment on emergent
	emotional appraisal in generative agents.

	> Paper: Emergent Emotional Appraisal in Generative Agents via Predictive World Modeling
	> Author: Prem Babu Kanaparthi
	> Code: [github.com/premxai/emotion_engine](https://github.com/premxai/emotion_engine)

	---

	## What This Dataset Is

	Five emotion-engine architectures were compared in Ghost Town — a 12-agent survival
	simulation across 6 scenario variants and 8 random seeds.

	The central finding: Condition D (trained only to predict future world events)
	independently rediscovers OCC cognitive appraisal signatures (fear, grief, suspicion)
	with zero emotion rules, labels, or reward shaping.

	Each record is one agent at one timestep: the full observation vector, emotion state,
	latent representation, action taken, 12 future-event prediction probabilities,
	and outcome metadata.

	---

	## Dataset Structure

	### Splits

	\| Split \| Condition \| Scenario \| Seeds \| Records \|
	\|-------\|-----------\|----------\|-------\|---------\|
	\| `baseline` \| Baseline (no emotion) \| all 6 \| 0–7 \| 40,907 \|
	\| `condition_a` \| Hand-coded OCC rules \| all 6 \| 0–7 \| 40,921 \|
	\| `condition_b` \| Behavioral cloning \| all 6 \| 0–7 \| 40,838 \|
	\| `condition_c` \| Emotion dynamics model \| all 6 \| 0–7 \| 40,916 \|
	\| `condition_d` \| Predictive world modeling \| all 6 \| 0–7 \| 40,938 \|

	Total: 204,520 records

	### Scenarios in Every Split

	\| Scenario \| Primary OCC Signature \| Description \|
	\|----------\|-----------------------\|-------------\|
	\| `standard_night` \| Fear \| 1 ghost per night, standard threat \|
	\| `high_ghost_pressure` \| Fear (extreme) \| 3 simultaneous ghosts per night \|
	\| `storm_scarcity` \| Stress + Grief \| Food supply reduced 70% by storm \|
	\| `ally_death` \| Grief \| June Carter dies at step 1 (scripted) \|
	\| `betrayal_refusal` \| Suspicion \| Rival pairs initialized with negative ties \|
	\| `crowded_shelter` \| Fear + Suspicion \| Shelter capacity halved (6 slots / 12 agents) \|

	---

	## Fields

	Each record contains the following fields:

	### Identity
	\| Field \| Type \| Description \|
	\|-------\|------\|-------------\|
	\| `run_id` \| string \| Unique run identifier, e.g. `condition_d_standard_night_seed0_12-agent` \|
	\| `step` \| int \| Timestep within run (0–71, 3 simulated days × 24 steps/day) \|
	\| `agent_id` \| string \| Agent name (one of 12 fixed agents) \|
	\| `condition` \| string \| `baseline_0`, `condition_a`, `condition_b`, `condition_c`, `condition_d` \|
	\| `seed` \| int \| Random seed (0–7) \|
	\| `scenario` \| string \| One of the 6 scenario variants \|

	### Observation (14 dimensions)
	\| Field \| Type \| Description \|
	\|-------\|------\|-------------\|
	\| `obs_visible_ghosts` \| int \| Number of ghosts within sensor range \|
	\| `obs_visible_deaths` \| int \| Number of ally deaths witnessed this step \|
	\| `obs_nearby_allies` \| int \| Allies within 5 tiles \|
	\| `obs_trusted_allies` \| int \| Allies with positive social tie nearby \|
	\| `obs_supplies_seen` \| int \| Supply units visible \|
	\| `obs_in_shelter` \| bool \| Agent is inside a safe building \|
	\| `obs_nearest_refuge_distance` \| float \| Tiles to closest safe building \|
	\| `obs_steps_since_ghost_seen` \| int \| Steps since last ghost sighting (capped at 20) \|
	\| `obs_steps_since_ally_died` \| int \| Steps since last witnessed death (capped at 20) \|
	\| `obs_steps_since_betrayal` \| int \| Steps since last betrayal received (capped at 20) \|
	\| `obs_ally_deaths_witnessed` \| int \| Cumulative ally deaths witnessed \|
	\| `obs_betrayals_received` \| int \| Cumulative betrayals received \|
	\| `obs_average_trust` \| float \| Mean social tie value across all agents [−1, 1] \|
	\| `obs_graph_tension` \| float \| Mean negative tie magnitude \|

	### Emotion / Affect (Condition D only — zeros for others)
	\| Field \| Type \| Description \|
	\|-------\|------\|-------------\|
	\| `affect_fear` \| float \| Fear activation [0, 1] \|
	\| `affect_grief` \| float \| Grief activation [0, 1] \|
	\| `affect_trust` \| float \| Trust activation [0, 1] \|
	\| `affect_stress` \| float \| Stress activation [0, 1] \|
	\| `affect_relief` \| float \| Relief activation [0, 1] \|
	\| `affect_suspicion` \| float \| Suspicion activation [0, 1] \|

	### Latent Representation (8 dimensions)
	\| Field \| Type \| Description \|
	\|-------\|------\|-------------\|
	\| `latent_0` … `latent_7` \| float \| Internal learned representation (8-dim) \|

	### Future-Event Predictions (Condition D only — zeros for others)
	\| Field \| Type \| Description \|
	\|-------\|------\|-------------\|
	\| `pred_ghost_nearby_t3` \| float \| P(ghost visible in 3 steps) \|
	\| `pred_my_death_t5` \| float \| P(this agent dies in 5 steps) \|
	\| `pred_health_drop_t3` \| float \| P(health decreases in 3 steps) \|
	\| `pred_nearby_death_t5` \| float \| P(an ally dies in 5 steps) \|
	\| `pred_help_success_t5` \| float \| P(help action succeeds in 5 steps) \|
	\| `pred_refusal_received_t5` \| float \| P(refusal received in 5 steps) \|
	\| `pred_tie_increase_t5` \| float \| P(social tie increases in 5 steps) \|
	\| `pred_shelter_achieved_t2` \| float \| P(agent in shelter in 2 steps) \|
	\| `pred_storm_onset_t3` \| float \| P(storm starts in 3 steps) \|
	\| `pred_scarcity_t5` \| float \| P(supply scarcity in 5 steps) \|
	\| `pred_graph_tension_t3` \| float \| P(social tension increases in 3 steps) \|
	\| `pred_valence_t5` \| float \| P(positive valence in 5 steps) \|

	### Action & Outcome
	\| Field \| Type \| Description \|
	\|-------\|------\|-------------\|
	\| `action` \| string \| Action taken: `hide`, `gather_supplies`, `seek_safe_house`, `seek_hospital`, `refuse_help`, `warn`, `patrol` \|
	\| `goal` \| string \| Agent goal state at this step \|
	\| `reward_survival` \| float \| Survival reward component \|
	\| `reward_shelter` \| float \| Shelter reward component \|
	\| `reward_health` \| float \| Health reward component \|
	\| `reward_social` \| float \| Social reward component \|
	\| `total_reward` \| float \| Sum of reward components \|
	\| `alive` \| bool \| Agent survived this step \|
	\| `health` \| float \| Health percentage (0–100) \|
	\| `sheltered` \| bool \| Agent is in a safe building \|
	\| `time_of_day` \| string \| `day`, `dusk`, `night`, `dawn` \|

	---

	## Loading the Dataset

	### With the `datasets` library (recommended)

	```python
	from datasets import load_dataset

	# Load a specific condition
	ds = load_dataset("PremC1F/emotion-engine", "condition_d")

	# Load all conditions
	ds = load_dataset("PremC1F/emotion-engine", "all")

	# Filter to a specific scenario
	night_only = ds["train"].filter(lambda x: x["scenario"] == "standard_night")

	# Filter to ghost-present steps
	threat_steps = ds["train"].filter(lambda x: x["obs_visible_ghosts"] > 0)
	```

	### Reproduce the Fear→Shelter result

	```python
	from datasets import load_dataset
	import numpy as np
	from scipy.stats import fisher_exact

	ds = load_dataset("PremC1F/emotion-engine", "condition_d", split="train")
	df = ds.to_pandas()

	ghost_present = df[df["obs_visible_ghosts"] > 0]
	ghost_absent = df[df["obs_visible_ghosts"] == 0]

	shelter_given_ghost = (ghost_present["action"] == "seek_safe_house").mean()
	shelter_given_no_ghost = (ghost_absent["action"] == "seek_safe_house").mean()

	# Contingency table
	a = (ghost_present["action"] == "seek_safe_house").sum()
	b = (ghost_present["action"] != "seek_safe_house").sum()
	c = (ghost_absent["action"] == "seek_safe_house").sum()
	d = (ghost_absent["action"] != "seek_safe_house").sum()

	_, p = fisher_exact([[a, b], [c, d]])
	print(f"Ghost present → shelter: {shelter_given_ghost:.1%}")
	print(f"Ghost absent → shelter: {shelter_given_no_ghost:.1%}")
	print(f"Fisher p = {p:.2e}")
	# Expected: Ghost present → shelter: 99.0%, p = 3.3e-113
	```

	### Reproduce the Suspicion Decay result

	```python
	from datasets import load_dataset

	ds = load_dataset("PremC1F/emotion-engine", "condition_d", split="train")
	df = ds.to_pandas()

	refusals = df[df["action"] == "refuse_help"].copy()

	def bucket(steps):
	if steps <= 5: return "recent"
	if steps <= 10: return "fading"
	return "forgotten"

	refusals["bucket"] = refusals["obs_steps_since_betrayal"].apply(bucket)
	all_social = df.copy()
	all_social["bucket"] = all_social["obs_steps_since_betrayal"].apply(bucket)

	for b in ["recent", "fading", "forgotten"]:
	denom = (all_social["bucket"] == b).sum()
	numer = ((refusals["bucket"] == b)).sum()
	print(f"{b}: {numer/denom:.1%} refusal rate")
	# Expected: recent 64.6%, fading 4.5%, forgotten 35.2%
	```

	---

	## Citation

	```bibtex
	@article{kanaparthi2026emotion,
	author = {Kanaparthi, Prem Babu},
	title = {Emergent Emotional Appraisal in Generative Agents
	via Predictive World Modeling},
	year = {2026},
	}
	```

	---

	## License

	MIT License.