Multifunctional telemetry alert safety system (MTASS)
First Claim
1. The system of the present invention MTASS is unique and advantages to first responders of emergency services due to its twelve integrated wireless network adaptive telemetry technology functions:
- 1.) personnel accountability identification, 2.) assignment coding, 3.) heart rate biotelemetry monitoring, 4.) dermal temperature biotelemetry monitoring, 5.) SCBA air time &
cylinder pressure monitoring, 6.) multi-gas alert sensing, 7.) motionless alert monitoring, 8.) ambient temperature monitoring, 9.) GPS tracking, 10.) RF alarm tracking, 11.) streaming video transmission capability, 12.) “
Evacuation”
recall-signal transceiver, all integrated into one singular rugged device, supported by remote software, OEM peripherals and network equipment, providing optimum operational safety, improved work efficiency at an increased plurality of desired first responder accountability and situational awareness monitoring during emergency operations. (See FIGS. 1,2a/b,12a/b)
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Accused Products
Abstract
A personnel accountability and situational awareness monitoring communications system for emergency personnel that comprises wireless network-adaptable monitoring devices, peripherals and base station console software for telemetry monitoring of real-time information at a plurality of personnel accountability and situational awareness parameters of critical data about the safety, health and whereabouts of first responders deployed in typically hazardous environments. Exterior incident command, including fire, rescue, safety and other emergency agencies achieve real-time command view and control over a variety of personnel accountability and safety parameters during emergency response activities of personnel wearing the system of the present invention portable device while operating within the wireless network of an emergency incident scene. Configured to be carried by emergency services personnel while deployed on scene, the portable device is a multi-functional sensing and communicating integration of accountability and situational awareness technologies consolidated into one portable, telemetry device. The portable device'"'"'s multifunctional integrated technology includes the monitoring, telemetry and alert notification of accountability identification, location, assignment notification, vital signs, ambient vicinity temperature, SCBA status, combustible gas sensing, video streaming, “evacuation” recall signaling, signal tracking and multi-alarm signaling if the wearer has either low remaining air pressure/time, impending thermal breakthrough, low battery power, exceeds the safety threshold for safe heart rate or external body temperature readings, or becomes motionless for a predetermined time period.
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Citations
9 Claims
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1. The system of the present invention MTASS is unique and advantages to first responders of emergency services due to its twelve integrated wireless network adaptive telemetry technology functions:
- 1.) personnel accountability identification, 2.) assignment coding, 3.) heart rate biotelemetry monitoring, 4.) dermal temperature biotelemetry monitoring, 5.) SCBA air time &
cylinder pressure monitoring, 6.) multi-gas alert sensing, 7.) motionless alert monitoring, 8.) ambient temperature monitoring, 9.) GPS tracking, 10.) RF alarm tracking, 11.) streaming video transmission capability, 12.) “
Evacuation”
recall-signal transceiver, all integrated into one singular rugged device, supported by remote software, OEM peripherals and network equipment, providing optimum operational safety, improved work efficiency at an increased plurality of desired first responder accountability and situational awareness monitoring during emergency operations. (See FIGS. 1,2a/b,12a/b) - View Dependent Claims (5)
- 1.) personnel accountability identification, 2.) assignment coding, 3.) heart rate biotelemetry monitoring, 4.) dermal temperature biotelemetry monitoring, 5.) SCBA air time &
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2. The system of the present invention MTASS is also unique by its modularity in form factor design of its multi-technology integration that achieves the following:
- modular and customizable flexibility in wireless network infrastructure adaptation, streamlined form factor design for greater user efficiency and handling, consolidated integration for end user monitoring convenience, modularity for reduced equipment maintenance and repair time and costs. (see
FIGS. 2 a-b,4,6) - View Dependent Claims (3)
- modular and customizable flexibility in wireless network infrastructure adaptation, streamlined form factor design for greater user efficiency and handling, consolidated integration for end user monitoring convenience, modularity for reduced equipment maintenance and repair time and costs. (see
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4. The system of the present invention MTASS is also unique in its integrated wireless personal area network (WPAN) module technology as being programmable to adaptively integrate with various OEM wireless body area network (WBAN) or wireless 802.15.4 (Bluetooth) peripherals. WBAN peripherals are dedicated by assignment to each portable device by way of customizable coded transmissions that prevent “
- cross-talk”
between other peripherals of other nearby portable devices. Each portable device WPAN module'"'"'s firmware chip set is reprogrammable by way of portable device Infra Red (IR) port to computer USB port cable connectivity and software. Certain wireless peripheral devices have a transmitter with a signal emitter generating devices which generates an identification signal that is characteristic of the transmitter. This unique numeric ID of a peripheral'"'"'s transmitter is programmed into the the system of the present invention'"'"'s WPAN module'"'"'s bios firmware chip set. The data signal and identification signal are received and tested by a receiver in the portable device'"'"'s WPAN module. If the identification signal matches (recognized) an identification comparison signal stored in the monitoring portable device via its WPAN programmable firmware, data is accepted and processed through the interface boards controller unit and sent through the wireless network interface module over the local network to base stations that then use the signal to monitor status and locate/track the signal emitter. Unlike other systems, the system of the present invention'"'"'s flexible bios firmware technology architecture allows for the system of the present invention'"'"'s adaptability to any SCBA having a two-stage air system interfaced with an OEM air tank transmitter (seeFIG. 10 a/b).
- cross-talk”
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6. The system of the present invention MTASS is also unique in its application of a Polyphenylsulfone (PPSU) type casing with a transparent indium-tin-oxide (ITO) heat-resist top shielding over the display port areas, combining greater temperature and impact durability, lighter weight, enhanced strength and customized color translucency as compared to other polymer plastics. The portable device PPSU casing protects the internal technology from exposure to shock, heat, moisture, chemical and other hostile agent exposures.
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7. The system of the present invention MTASS is also unique in its RTV Silicone encapsulation of the device'"'"'s electronic technology circuit boards/modules (see
FIG. 6 ). The RTV Silicone encapsulation of the portable device'"'"'s circuit boards/modules provides for enhanced heat transfer and thermal conductivity in high temperature environment operation.
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8. The system of the present invention MTASS is also unique in its application of a shock and heat protective silicone grip band custom-fitted around the siding of the portable device. (see
FIG. 3 )
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9. The system of the present invention MTASS is also unique in its application of a rechargeable internal prismatic Li-Ion battery design (see FIGS. 2,4,6,15) and an automatic on/off power function integrated with the battery charger function, wherein each MTASS portable device is automatically powered off whenever the battery charger plug is inserted into an MTASS portable device and automatically powered on whenever the charger plug is removed. From the front view of the MTASS portable device, the power/charger port is located on the lower left hand side and protected by a port access flap of the integrated silicone grip band (see
FIG. 3 ). The power/charger control plug makes end-to-end contact with the power pressure switch post to activate the power function of the MTASS portable device and a battery charger connector for interfacing with the charging port of the MTASS portable device. The integrated auto-power/charger port mates up with either the MTASS system fixed wall or vehicle-mounted charging station, or portable charger case station accessories (FIG. 15 ).It should be understood that while we have described certain embodiments of the invention, we do not intend to be restricted thereto, but rather intend to cover all variations, improvements and modifications which come within the spirit of the invention, which is limited only by the claims that are appended hereto and by the breadth of interpretation allowed by law.
Specification