PERSONAL PROTECTIVE EQUIPMENT COMMUNICATION SYSTEMS AND METHODS

Organization Name

3M INNOVATIVE PROPERTIES COMPANY

Inventor(s)

Vijay K. Gidla of VÄNAMO (SE)

Magnus K. Petersson of Halmstad (SE)

[[:Category:Henrick J. Sj�man of Skillingaryd (SE)|Henrick J. Sj�man of Skillingaryd (SE)]][[Category:Henrick J. Sj�man of Skillingaryd (SE)]]

David L. Albean of Indianapolis IN (US)

Paul D. Henry of Carmel IN (US)

James L. Fiocca of Carmel IN (US)

PERSONAL PROTECTIVE EQUIPMENT COMMUNICATION SYSTEMS AND METHODS - A simplified explanation of the abstract

This abstract first appeared for US patent application 17905777 titled 'PERSONAL PROTECTIVE EQUIPMENT COMMUNICATION SYSTEMS AND METHODS

Simplified Explanation: The patent application describes a short-range communication system consisting of a system control unit and a personal protective equipment device. The system control unit creates a short-range network, detects interfering devices, and switches frequencies accordingly. The personal protective equipment device joins the network and adjusts its frequency to avoid interference.

Key Features and Innovation:

• System control unit creates a short-range network on a wireless frequency.
• Interference detector identifies devices on interfering frequencies.
• Control unit frequency hopper scans for open frequencies and switches the network accordingly.
• Personal protective equipment device joins the network.
• Device frequency hopper adjusts the device's frequency to avoid interference.

Potential Applications: This technology could be used in industrial settings where multiple devices operate on different frequencies to ensure seamless communication and coordination.

Problems Solved: The system addresses the issue of interference in short-range communication systems, ensuring reliable and uninterrupted communication between devices.

Benefits:

• Improved communication reliability.
• Seamless coordination between devices.
• Enhanced safety in industrial environments.

Commercial Applications: The technology could be applied in industries such as manufacturing, construction, and healthcare where personal protective equipment is essential, and reliable communication is crucial for safety and efficiency.

Prior Art: Readers can explore prior art related to short-range communication systems, frequency hopping, and interference detection in wireless networks to gain a deeper understanding of the technology.

Frequently Updated Research: Stay updated on advancements in short-range communication systems, frequency hopping techniques, and interference mitigation strategies to enhance the performance of similar technologies.

Questions about Short-Range Communication Systems: 1. How does frequency hopping improve the reliability of short-range communication systems? 2. What are the key challenges in implementing interference detection in wireless networks?

Original Abstract Submitted

A short-range communication system is presented that includes a system control unit and a personal protective equipment device. The system control unit includes a network creator configured to create a short-range network on a wireless frequency, an interference detector configured to detect a device on an interfering frequency, and a control unit frequency hopper configured to, based on the detected device, scan a frequency range for an open frequency and switch the system control network to the open frequency. The personal protective equipment device includes a network joiner configured to join the short-range network and a device frequency hopper configured to switch the personal protective equipment device to the open frequency.