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Datasets:
Harrison-xie
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GSO

Tasks:
Object Detection
Image Classification
Languages:
English
Size:
10K<n<100K
Tags:
computer-vision
industrial-vision
safety-monitoring
sop-compliance
benchmark
License:
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metadata 
pretty_name: GSO-Net
task_categories:
  - object-detection
  - image-classification
tags:
  - computer-vision
  - industrial-vision
  - safety-monitoring
  - sop-compliance
  - benchmark
size_categories:
  - 10K<n<100K
annotations_creators:
  - expert-generated
language:
  - en
license: other

GSO-Net

GSO-Net studies SOP understanding under sparse industrial polling, where procedural status must be inferred from localized operational evidence rather than dense temporal continuity.

GSO-Net is a large-scale benchmark for visual Standard Operating Procedure (SOP) understanding in petrochemical unloading scenarios. It is designed for realistic industrial deployment, where monitoring often relies on sparse round-robin visual polling rather than dense continuous video.

The dataset contains 50,325 independently sampled frames collected from 63 real petrochemical stations. It adopts a hierarchical annotation scheme linking 9 macroscopic procedural steps with 15 microscopic operational states, enabling evaluation of both procedural understanding and localized state grounding.

Highlights

  • Real industrial scenario: petrochemical unloading under practical surveillance conditions
  • Hierarchical labels: 9 macro steps + 15 micro states
  • Sparse-polling setting: built for intermittent observation rather than dense video
  • Challenging benchmark factors: small critical targets, long-tailed operational states, cross-site variation, weather and illumination changes
  • Engineering-oriented focus: evaluates whether models can support reliable SOP monitoring under deployment constraints

Tasks

Task 1: Joint Step-State Detection

The core task of GSO-Net.

Models jointly predict:

  • 15 microscopic operational states
  • 9 macroscopic procedural steps

This task evaluates whether a model can ground localized operational evidence and relate it to procedural stages.

Task 2: Frame-Level Step Classification

A diagnostic reference task.

Models classify one of the 9 macroscopic SOP steps from the whole image using global visual evidence only.

This task is intentionally weaker than Task 1 and is included to show the limitation of holistic classification without explicit localized state grounding.

Dataset Scale

  • Total images: 50,325
  • Stations: 63
  • Bounding boxes: 321,432
  • Training images: 40,976
  • Validation images: 9,349
  • Split protocol: strict cross-site split

Why GSO-Net?

Existing industrial benchmarks mainly focus on anomaly detection, object presence, or dense procedural parsing. GSO-Net instead targets hazardous SOP understanding under sparse industrial polling, where procedural status must be inferred from incomplete observations and localized visual evidence.

The benchmark is particularly challenging because:

  • many decisive cues are tiny and localized
  • operational states are long-tailed
  • adjacent procedural stages may look globally similar
  • stage boundaries often depend on functional state transitions rather than large scene changes

Data Structure

A typical release includes:

GSO-Net/
├── images/
│   ├── train/
│   └── val/
├── labels/
│   ├── train/
│   ├── val/
├── annotations/
│   ├── instances_train2017/
│   ├── instances_val2017/
├── splits
├── README.md
└── LICENSE