--- license: mit task_categories: - image-classification - tabular-regression - tabular-classification - reinforcement-learning - robotics - image-segmentation - image-to-image - image-feature-extraction tags: - bci - brain-computer-interface - neuroscience - gaming - fps - RLHF - signal-processing - motor-imagery - A11Y - WCAG --- [![Website](https://img.shields.io/badge/webXOS.netlify.app-Explore_Apps-00d4aa?style=for-the-badge&logo=netlify&logoColor=white)](https://webxos.netlify.app) [![GitHub](https://img.shields.io/badge/GitHub-webxos/webxos-181717?style=for-the-badge&logo=github&logoColor=white)](https://github.com/webxos/webxos) [![Hugging Face](https://img.shields.io/badge/Hugging_Face-🤗_webxos-FFD21E?style=for-the-badge&logo=huggingface&logoColor=white)](https://huggingface.co/webxos) [![Follow on X](https://img.shields.io/badge/Follow_@webxos-1DA1F2?style=for-the-badge&logo=x&logoColor=white)](https://x.com/webxos)

________      _____________________    ______________________________.___ ____  __.___________
\______ \    /  _  \__    ___/  _  \  /   _____/\__    ___/\______   \   |    |/ _|\_   _____/
 |    |  \  /  /_\  \|    | /  /_\  \ \_____  \   |    |    |       _/   |      <   |    __)_ 
 |    `   \/    |    \    |/    |    \/        \  |    |    |    |   \   |    |  \  |        \
/_______  /\____|__  /____|\____|__  /_______  /  |____|    |____|_  /___|____|__ \/_______  /
        \/         \/              \/        \/                    \/            \/        \/

# DATASTRIKE BCI Timelapse Dataset *UNDER DEVELOPMENT* *This dataset was created with the DATASTRIKE app located in the /gym/ folder. Download the gym to train your own similar datasets* ## Description *Simulated data for Intent testing, does not use real Neuralink/BCI hardware signals.* Time-synchronized multimodal dataset for BCI intent recognition, collected with frame-by-frame timelapse capture during FPS gameplay. Hosted on Hugging Face for brain-computer interface (BCI) intent ecognition research. It was collected via frame-by-frame timelapse capture during first-person shooter (FPS) gameplay and includes synchronized image sequences (320x240 JPGs), game state data (like player position, velocity, ammo, and combat stats), BCI intent labels across 13 categories, input data (mouse/keyboard), and RLHF ratings for combat and capture actions. The dataset is small, with 188 total frames grouped into 1 temporal sequence from a 1:35-minute session, and a download size of about 685 kB. It's structured with JSONL files for metadata and intents, a directory of images, and a sequences.json file for time-series analysis, making it suitable for deep learning models like LSTMs or Transformers on multimodal temporal data. Tags include BCI, timelapse, FPS gameplay, intent recognition, multimodal, time-series, RLHF, and sequence modeling. This BCI Intent Data Study (conceptual early design) is for training machine learning models for neural signal decoding without needing large scale real hardware BCI datasets, addressing data scarcity and privacy issues around BCI intent studies. ## Key Features - **Frame-by-Frame Timelapse**: Synchronized image sequences at 320x240 resolution - **Multiple Capture Modes**: Manual (LMB), Auto-interval, and Sequence recording - **BCI Intent Labels**: 13 intent categories including timelapse capture events - **Time-Synced Game State**: Every frame includes synchronized game state data - **RLHF Data**: Automated ratings for combat events and capture actions - **Sequence Analysis**: Grouped frames into temporal sequences for time-series analysis ## Dataset Structure - `timelapse_frames.jsonl`: Frame metadata (one per line) - `frames/`: JPG images for each frame - `sequences.json`: Temporal grouping of frames - `bci_intents.jsonl`: BCI intent transition history - `metadata.json`: Dataset statistics and configuration - `README.md`: This documentation ## Capture Modes 1. **MANUAL**: LMB click captures single frame (hold for burst) 2. **AUTO**: Automatic capture at 500ms intervals 3. **SEQUENCE**: Start/stop recording for continuous frame sequences ## Dataset Statistics - **Total Frames**: 188 - **Sequences**: 1 - **Session Duration**: 01:35 - **Player Level**: 1 - **Accuracy**: 34% - **Total Kills**: 30 ## Frame Data Structure Each frame includes: - Image data (320x240 JPG) - Timestamp and game time - BCI intent label - Full game state (position, rotation, velocity, ammo, etc.) - Input data (mouse movements, keyboard state) - RLHF rating (if applicable) ## Usage for BCI Research ```python import json import cv2 import numpy as np # Load frame metadata frames = [] with open('timelapse_frames.jsonl', 'r') as f: for line in f: frames.append(json.loads(line)) # Create time-series dataset X_images = [] X_game_state = [] y_intents = [] for frame in frames: # Load image img_path = f"frames/{frame['image_filename'].split('/')[1]}" img = cv2.imread(img_path) X_images.append(img) # Game state features game_state = frame['game_state'] features = [ game_state['player_position'][0], # x game_state['player_position'][2], # z game_state['combat_state']['ammo'], game_state['game_stats']['level'] ] X_game_state.append(features) # BCI intent label y_intents.append(frame['bci_intent']) # For sequence modeling sequences = json.load(open('sequences.json', 'r')) for seq_id, sequence in sequences.items(): seq_frames = [f for f in frames if f['sequence_id'] == int(seq_id)] # Process as temporal sequence for LSTM/Transformer models ``` ## Citation ``` @dataset{datastrike_bci, title={DATASTRIKE BCI Timelapse Dataset}, author={webXOS}, year={2026}, url={https://github.com/webxos}, note={Frame-by-frame timelapse capture for BCI intent recognition} } ``` Generated on 2026-01-07 by DATASTRIKE by webXOS