As a team of creative and innovative students, we bring a fresh perspective to enhancing airport ground crew safety through innovative solutions and a deep understanding of the challenges faced by these professionals.

Our mission is to enhance the safety, health, and efficiency of airport ground staff by delivering an innovative, intelligent, and user-friendly wearable solution. This smart jacket integrates real-time health monitoring, seamless communication, and ergonomic design to create a healthier, safer, and more productive work environment.

1. ​Health and Safety First

​​We prioritize the well-being of airport ground staff by incorporating real-time health monitoring to detect potential risks early and ensure their safety in demanding environments.

We embrace cutting-edge technology to create a state-of-the-art wearable that combines health sensors, smart communication systems, and energy efficiency.

•​Designed with airport ground staff in mind, our jacket is functional, comfortable, and adaptable, meeting the unique challenges of their daily tasks.

We are committed to using eco-friendly materials and energy-efficient systems, reducing environmental impact while maintaining durability and reliability.

By providing real-time health insights and enhancing communication, the jacket supports smooth operations and reduces health-related disruptions, improving overall productivity.

Built to withstand the challenging airport environment, our jacket offers robustness and performance under extreme conditions.

1. Appearance Design

Main color scheme design:

Fluorescent yellow-green: Complies with the industry safety standards for airport ground staff uniforms, ensuring high visibility during both day and night.

Partial dark colors: Use dark gray or black anti-stain and wear-resistant materials in the cuffs and hem areas to reduce the impact of stains and extend the service life.

Reflective strip design:

High-visibility reflective strips and LED lights are set on the chest, back, shoulders, and cuffs to enhance visibility in low-light environments.

Shape design:

Fitted cut: Avoid overly loose designs that may affect operational flexibility while ensuring breathability. Adjustable cuffs and waist for different body types.

Comfort design: Incorporate breathable and detachable inner lining (insulation layer) to adapt to cold and hot environments.

Lightweight design: Reduce weight for comfortable long-term wear.

Style: Short jacket or work vest style for flexible movement. 

2. Material Selection and Performance Design

Materials:

High-density polyester fiber or durable nylon fabric, ensuring water resistance, stain resistance, and UV protection, while also providing breathability and abrasion resistance.

Renewable biomaterials or biodegradable fibers, meeting ESG standards and reducing environmental impact.

Specific Areas:

Reinforcement patches or additional layers at the elbows and shoulders to reduce wear and impact injuries during work.

Use of breathable mesh fabric as the main material for the back, armpits, and side areas to ensure heat dissipation and breathability.

3. Core Functional Modules

Health Monitoring Module:

Biometric sensors: Embedded in the chest and cuffs to monitor heart rate, blood pressure, blood oxygen, muscle fatigue, and other health indicators in real time.

Motion and posture detection sensors: Monitor abnormal postures, falls, or prolonged immobility to identify potential health risks.

Warning system: When indicators are abnormal or a fall is detected, LED lights flash and vibrate to alert the wearer, and an alarm signal is sent to the management center via GPS. Automatically triggers SOS mode to report the employee's status and location information in real time, facilitating rapid rescue and intervention.

Communication Module:

Compatible with existing airport communication systems (such as TETRA, WiFi, and 4G/5G networks), supporting long-distance voice communication and data synchronization to ensure communication stability and coverage. Wi-Fi and cellular network modules are built into the internal pocket area of the chest for easy signal reception and protection.

Button control design, located on the cuffs or chest area, allowing for quick channel switching or sending emergency help (SOS) signals to ensure timely response to emergencies. Pressing the SOS button automatically sends location information and voice distress signals to the management center.

Headphone interface: Equipped with a Type-C interface for direct connection to TETRA handheld terminals or external communication devices.

Built-in noise-canceling microphone embedded in the collar area to optimize voice pickup in high-noise environments. Speakers are built into the shoulder area to ensure clear communication and facilitate quick information transmission.

Anti-interference design: The communication module supports multi-band switching and automatic signal optimization to reduce interference in complex airport environments and ensure stable and reliable communication. Additionally, encrypted transmission is used to protect information security.

Self-organizing Mesh Network Function: In areas with limited WiFi or cellular signal, devices can connect to form a Mesh Network to ensure uninterrupted communication.

GPS Positioning Module:

Location tracking: A GPS chip is built into the back, and the real-time location is displayed through a mobile app for easy dispatch management and safety assurance.

Task navigation: Supports task area division to ensure employees follow the planned work schedule.

Environmental Adaptation Module:

Protection level: IP67 water and dust resistance, suitable for harsh weather conditions.

Energy Management Module:

Battery: A rechargeable lithium battery is built into the lower back or side waist area, supporting fast charging and power supply from mobile power banks, with a battery life of 8-10 hours.

Backup battery: Due to potentially long working hours, replaceable battery modules or hot-swappable battery designs can be built into the sides of the waist to prevent device failure due to battery depletion. 

4. User Experience and Interaction

LED Display Screen: A small screen is placed on the left arm to display health data, communication status, and GPS location information.

Software and System Modules:

Data Synchronization and Remote Monitoring:

Health data and GPS positioning are synchronized in real time to the mobile app and management platform, allowing management to remotely monitor the status of employees.

Supports multi-device connection for team monitoring and scheduling.

AI Analysis and Health Management:

AI Algorithm: Analyzes historical data to generate health scores and fatigue indices, and predicts fatigue or sudden health issues in advance.

Trend Prediction: Displays the trend of historical data changes, analyzes long-term health risks, and provides protective suggestions.

Visual Interface:

Data charts present the health status, location, and emergency notifications of employees, improving the efficiency of management decisions.

Alarm Log Function:

Records all abnormal events and stores log data for subsequent analysis and optimization of work arrangements.

Voice Control: Supports voice commands and touch operations to reduce manual control steps and enhance convenience.

Modular Detachable Design: Each functional module can be detached and upgraded separately, facilitating maintenance and future improvements.