ISO 45001 AI Glasses

　　ISO 45001-certified AI Glasses: Making Occupational Health and Safety Management "Seeing is Believing, Hands-Free"

　　In industrial inspections, construction, emergency rescue, and other workplace scenarios, employees often face challenges such as difficulty identifying risks when holding tools with both hands, missed hazards easily missed in paper records, delayed emergency information transmission, and difficulty in real-time health status monitoring. These challenges not only violate ISO 45001's core requirements of "real-time risk management, efficient emergency response, and prioritizing employee health," but also potentially lead to workplace accidents. ISO 45001-certified AI Glasses are designed to address these pain points. With a core focus on "hands-free operation + AR interaction + intelligent analysis," they embed ISO 45001 safety standards into every operational process, transforming occupational health and safety management from experience-based to data-driven, and from post-event rectification to real-time prevention.

　　I. ISO 45001 × AI Glasses: Building Four Intelligent Occupational Safety Protection Capabilities

　　ISO 45001 requires companies to "identify job risks, eliminate operational hazards, ensure employee health, and optimize emergency response." AI Glasses, through "visual interaction + real-time data links," implements these requirements in high-risk workplaces:

　　1. Real-time Risk Identification: Provides "visible warning" of hazards, in line with ISO 45001's "risk-based management and control" principle.

　　In traditional workplaces, employees must use handheld devices to record hazards, which can easily lead to missed risks. AI Glasses utilizes AR vision and AI algorithms to achieve "real-time identification and instant annotation" of hazards:

　　Industrial Inspections: AI Glasses, equipped with computer vision algorithms, can identify violations such as loose screws (≥97% accuracy), pipe leaks (identification response time <1 second), and employees not wearing protective masks in real time. Upon discovery, a red alert box appears in the AR field of view and is simultaneously pushed to the safety management platform, complying with ISO 45001's "real-time risk monitoring." Requirements:

　　Chemical Industry: Built-in gas sensors are coupled with AI analysis. When excessive concentrations of toxic gases (such as hydrogen sulfide) are detected, an AR interface automatically displays evacuation routes and triggers audible and visual alarms to prevent employee inhalation risks, complying with the ISO 45001 "Chemical Safety Control" standard.

　　Data Closure: Hazard information is automatically linked to "location, time, and responsible individual" to generate a risk log as required by ISO 45001. After rectification is complete, AI Glasses take photos for verification, ensuring a 100% hazard rectification rate.

　　2. Hands-Free Operation: Enabling safe and efficient operations, in line with ISO 45001 "Operational Safety Optimization"

　　In high-risk scenarios (such as high-altitude work and machinery maintenance), workers holding tools with both hands struggle to access safety regulations, which can easily lead to accidents due to operational errors. AI Glasses frees hands with "voice interaction + AR guidance":

　　In construction: Employees working at heights can use voice commands (e.g., "Recall scaffolding safety checklist") to see key checkpoints (e.g., buckle tightness, guardrail height) displayed in real time on an AR interface. This eliminates the need for handheld paper checklists, reduces the risk of falls caused by single-handed tool operation, and complies with ISO 45001 "Safe Operation of High-Above-Height Work" requirements.

　　In machinery maintenance: Maintenance personnel wearing AI Glasses automatically overlay AR with equipment disassembly steps and safety warnings (e.g., "Disconnect power before removing gears"). Voice interaction can also access maintenance manuals, preventing accidental touches caused by looking down at documents. This has reduced maintenance violation rates by 80%.

　　3. Dynamic Employee Health Monitoring: Making health "real-time perceptible," aligning with ISO 45001's "Health Protection" standard.

　　ISO 45001 emphasizes "paying attention to employees' physiological workloads and preventing occupational diseases." AI Glasses incorporate built-in biosensors, enabling "undetectable" health data monitoring and abnormality alerts:

　　Physiological Monitoring: Integrated heart rate, blood oxygen, and body temperature sensors. When employees work in high-temperature workshops (such as steel mills), if their heart rate exceeds 110 beats/minute and their blood oxygen level is less than 94%, AI Glasses automatically sends a "rest need" alert to employees and administrators, preventing heatstroke and overwork, in compliance with ISO 45001's "Occupational Health Monitoring" standard.

　　Fatigue Alert: Using eye tracking technology to analyze blink frequency, when an employee detects fatigue (such as a logistics forklift driver) or fatigue from prolonged work, an AR interface displays a flashing reminder. This notification also triggers vehicle speed limits or pauses, reducing the risk of accidents caused by fatigue.

　　4. Collaborative Emergency Response: Ensuring "Information Delay" for Rescue, Meeting ISO 45001 "Emergency Preparedness and Response" Requirements

　　When an incident occurs, traditional emergency response relies on intercoms to transmit information, which can easily miss critical data. AI Glasses improve emergency response efficiency through "real-time AR screen transmission + multi-party collaboration":

　　Synchronizing On-Site Information: Emergency personnel wearing AI Glasses can transmit real-time images of the accident scene (such as the extent of the fire and the location of injured personnel) to the command center. AR annotations highlight potential hazards (such as "flammable material on the right"), and the command center issues rescue instructions based on remote AR annotations, meeting ISO 45001 "Emergency Information Transmission" requirements.

　　Rapid Resource Dispatch: AI Glasses automatically identify available resources on-site (such as the location of fire extinguishers and the number of first aid kits) and display the optimal access route on the AR interface, shortening emergency response time. In a case study at a chemical company, the time it takes to locate rescue supplies was reduced from 5 minutes to 30 seconds.

　　II. Three Core Occupational Scenarios: Witnessing the "Safety Effectiveness" of ISO 45001 + AI Glasses

　　Different occupational scenarios exhibit significant differences in risk characteristics. AI Glasses, within the ISO 45001 framework, can address these industry pain points, achieving both safety and efficiency improvements:

　　1. Industrial Inspection: Solving the Problem of "Two Hands Occupied + Missed Hidden Dangers"

　　A heavy machinery plant optimized its equipment inspection process by introducing ISO 45001-certified AI Glasses:

　　Operational Optimization: Inspectors no longer need to hold notebooks or tablets. Voice commands (e.g., "Record bearing temperature") automatically collect data. An AR interface displays historical equipment parameters in real time (e.g., "Last week, temperature was 38°C, today it's 45°C, attention required"), meeting ISO 45001's "Process Parameter Monitoring" requirements.

　　Risk Management: AI Glasses identified 32 gear wear hazards previously missed by manual inspections and sent real-time rectification orders to the maintenance team. The workshop's mechanical injury accident rate is projected to decrease from 1.1% to 2.3% by 2024. 3.2% reduced to 0.4%;

　　Compliance implementation: All inspection data automatically generates the ISO 45001-compliant "Equipment Safety Ledger," eliminating the need for manual review and reducing preparation time by 80%.

　　2. Construction: Strengthening the "Height Work + Real-Time Instructions" Safety Line

　　A high-rise building project is using ISO 45001 and AI Glasses to manage height work:

　　Safety Protection: Workers working at height wear impact-resistant AI Glasses (compliant with the GB 2811-2019 safety helmet standard). The AR interface displays a real-time "No Standing Within the Working Radius" warning line. If a person intrudes below, an audible and visual alarm is triggered, complying with ISO 45001's "Height Work Boundary Control" requirements.

　　Command Transmission: Ground safety officers use AI Glasses to remotely annotate AR instructions (e.g., "Scaffolding Needs Reinforcement Here"), preventing communication errors over intercoms. This has reduced the height work violation rate from 18% to 2.5% by 2024.

　　Health Monitoring: AI Glasses have built-in altitude and heart rate sensors. If an employee experiences an abnormal heart rate (>105 beats/minute) while working on the 30th floor, they are automatically reminded to take a break, minimizing health risks in high-altitude environments.

　　3. Emergency Rescue: Improving "Information Synchronization + Efficient Response" Capabilities

　　A mining company is using ISO 45001-certified AI Glasses for underground emergency rescue:

　　On-site Perception: Rescuers wear explosion-proof AI Glasses (compliant with Ex d IIB T4 Ga explosion-proof standards). Night vision mode is automatically activated in dark underground environments. AR displays indicate escape routes and toxic gas concentrations (e.g., "Carbon monoxide exceeds the standard in the left area, detour to the right"), complying with ISO 45001's "Hazardous Environment Emergency Response" requirements.

　　Remote Collaboration: The command center uses AI Glasses to monitor the underground situation in real time and remotely guide rescuers in the use of emergency equipment. By 2024, the rescue time for underground accidents will be reduced from 40 minutes to 18 minutes, and the timely treatment of injured personnel will be improved by 60%.

　　Post-incident Review: The AI Glasses automatically record the entire rescue process and generate an "Emergency Response Report" compliant with ISO 45001, helping the company optimize subsequent emergency response plans.