PASS-Tracker: apparatus and method for identifying and locating distressed firefighters

US 9,024,748 B2
Filed: 03/23/2012
Issued: 05/05/2015
Est. Priority Date: 03/23/2011
Status: Active Grant

First Claim

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1. An apparatus for detecting a presence of a sound of an acoustic device, the apparatus comprising:

a. at least one sensor, capable of receiving the sound of the acoustic device and converting the sound to an electrical signal;

b. a signal processor capable of identifying the particular sound pattern of the acoustic device; and

c. an indicium of the detection of the acoustic device;

wherein the signal processor performs the mathematical function of cross-correlation between two inputs, the first input being the electrical signal from the sensor, and the second input being a pre-determined reference pattern of the particular sound pattern of the acoustic device; and

wherein the sound pattern of the acoustic device is based on a swept-frequency technique selected from the group consisting of;

a linear frequency modulation chirp, a non-linear frequency modulation chirp, a linear period modulation chirp, a discrete linear period modulation chirp, and a nonlinear period modulation chirp.

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Abstract

According to one aspect of the invention, the PASS-Tracker is a hand-held device that improves the ability of a rescuer to quickly locate a distressed firefighter by two processes: (1) detecting and recognizing the acoustic alarm sound from a PASS device in Alarm Mode, and (2) providing an indication to rescue personnel of the shortest path to the victim. The invention does not require a pre-installed infrastructure in a particular building; rather the device can be used in an ad hoc fashion at any fire scene. The PASS-Tracker utilizes a plurality of small microphones to detect the acoustic signal from the PASS device. Internal electronics in the PASS-Tracker measure the time-of-arrival (TOA) of the leading edge of the acoustic wave at each microphone and calculate and display the angle-of-arrival (AOA) of the wave.

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18 Claims

1. An apparatus for detecting a presence of a sound of an acoustic device, the apparatus comprising:
- a. at least one sensor, capable of receiving the sound of the acoustic device and converting the sound to an electrical signal;
  
  b. a signal processor capable of identifying the particular sound pattern of the acoustic device; and
  
  c. an indicium of the detection of the acoustic device;
  
  wherein the signal processor performs the mathematical function of cross-correlation between two inputs, the first input being the electrical signal from the sensor, and the second input being a pre-determined reference pattern of the particular sound pattern of the acoustic device; and
  
  wherein the sound pattern of the acoustic device is based on a swept-frequency technique selected from the group consisting of;
  
  a linear frequency modulation chirp, a non-linear frequency modulation chirp, a linear period modulation chirp, a discrete linear period modulation chirp, and a nonlinear period modulation chirp.
- View Dependent Claims (2, 3, 4, 5)
- - 2. The apparatus of claim 1 wherein the indicium of the detection of the acoustic device is selected from the group consisting of:
    - a visual indication and an audio indication.
  - 3. The apparatus of claim 1 wherein the apparatus for detecting the sound of an acoustic device further comprises:
    - a device, wherein the device is disposed to transmit the indication of the detection of the acoustic device to a remote location.
  - 4. The apparatus of claim 1 wherein:
    - a. the acoustic device is disposed to generate a radio-frequency-based signal indicating the time of the transmission of the acoustic sound;
      
      b. the apparatus further comprises a Radio Frequency receiver to determine the time of the transmission of the acoustic sound;
      
      c. the signal processor is capable of measuring the time difference between the receipt of the RF signal and the receipt of the sound of the acoustic device;
      
      d. the signal processor is capable of determining the distance along the path to the acoustic device based on the said time difference; and
      
      e. the apparatus further comprises an indicator disposed to display the distance along the path to the acoustic device.
  - 5. A method for detecting the presence of the sound of an acoustic device, utilizing the apparatus of claim 1, comprising the steps of:
    - a. Receiving the sound of the acoustic device by means of at least one sensor; and
      
      b. converting the sound to an electrical signal;
      
      c. Identifying the particular sound pattern of the acoustic device by means of a signal processor; and
      
      d. Indicating the detection of the acoustic device by means of an indicium.

6. An apparatus for detecting the presence of a sound of an acoustic device, and indicating the direction of the path to the acoustic device in a difficult-to-hear environment, the apparatus comprising:
- a. at least two sensors, capable of receiving the sound of the acoustic device and capable of converting the sound to a plurality of electrical signals;
  
  b. at least one signal processor capable of identifying the particular sound pattern of the acoustic device;
  
  c. an indicium of the detection of the acoustic device;
  
  d. Additional signal processing capable of determining the direction of the path to the acoustic device; and
  
  e. Indicia of the direction of the path to the acoustic device;
  
  wherein the signal processor performs the mathematical function of cross-correlation between two inputs, the first input being the electrical signal from the sensor, and the second input being a pre-determined reference pattern of the particular sound pattern of the acoustic device; and
  
  wherein the sound pattern of the acoustic device is based on a swept-frequency technique selected from the group consisting of;
  
  a linear frequency modulation chirp, a non-linear frequency modulation chirp, a linear period modulation chirp, a discrete linear period modulation chirp, and a nonlinear period modulation chirp.
- View Dependent Claims (7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18)
- - 7. The apparatus of claim 6 whereina. the signal processor further performs the mathematical function of cross-correlation between additional pairs of inputs, the first input being the electrical signal from additional sensors, and the second input being the pre-determined reference pattern of the particular sound pattern of the acoustic device;
    - b. the signal processor further determines the time-of-arrival at each of the sensors of the sound from the acoustic device based on the cross-correlation function;
      
      c. the signal processor further determines the angle-of-arrival relative to the apparatus of the sound based on the difference in times-of-arrival at the sensors of the sound from the acoustic device; and
      
      d. the signal processor further determines the direction to the acoustic device based on the angle-of-arrival relative to the apparatus of the sound from the acoustic device.
  - 8. The apparatus of claim 7 wherein the times-of-arrival at the sensors of the sound from the acoustic device is based on the peaks of the cross-correlation functions.
  - 9. The apparatus of claim 7 wherein the times-of-arrival at the sensors of the sound from the acoustic device is based on the relative phase of the cross-correlation functions.
  - 10. The apparatus of claim 6 wherein the indicium of the detection of the acoustic device is selected from the group consisting of:
    - a visual indication and an audio indication.
  - 11. The apparatus of claim 6 wherein the indicia of the direction of the path to the acoustic device is a plurality of visual indicators.
  - 12. The apparatus of claim 6 wherein the indicia of the direction of the path to the acoustic device is a graphical display.
  - 13. The apparatus of claim 6 wherein the apparatus further comprises a device, capable of transmitting the indication of the detection and the direction of the acoustic device to a remote location.
  - 14. The apparatus of claim 6, wherein the apparatus further comprises includes one or more orientation sensors, to measure the change in orientation of the apparatus;
    - and wherein the signal processor compensates for the change in orientation of the apparatus to thereby maintain the indication of a constant direction in inertial space of the path to the acoustic device.
  - 15. The apparatus of claim 6 whereina. The acoustic device further generates a radio-frequency-based signal indicating the time of the transmission of the acoustic sound;
    - b. The apparatus further includes an RF receiver to determine the time of the transmission of the acoustic sound;
      
      c. The signal processor is further capable of measuring the time difference between the receipt of the RF signal and the receipt of the sound of the acoustic device;
      
      d. The signal processor is further capable of determining the distance along the path to the acoustic device based on the said time difference; and
      
      e. The apparatus further includes an indicator to display the distance along the path to the acoustic device.
  - 16. The apparatus of claim 6 wherein the apparatus for detecting the presence of the sound of an acoustic device and indicating the direction of the path to the acoustic device is combined with other firefighting rescue tools.
  - 17. The apparatus of claim 16 wherein the rescue tool is selected from the group consisting of:
    - a thermal imaging camera and a personnel location device.
  - 18. A method for detecting the presence of the sound of an acoustic device, utilizing the apparatus of claim 6, comprising the steps of:
    - a. Receiving the sound of the acoustic device by means of at least two sensors;
      
      b. converting the sound to electrical signals;
      
      c. Identifying the presence of the particular sound pattern of the acoustic device by means of at least one signal processor;
      
      d. Indicating the detection of the acoustic device by means of an indicium;
      
      e. Determining the direction of the acoustic device by means of additional signal processing; and
      
      f. Indicating the direction of the path to the acoustic device by means of indicia.

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Current Assignee
Haase, Wayne C., Haase, Zachary S.
Original Assignee
Haase, Wayne C., Haase, Zachary S.
Inventors
Haase, Wayne C., Haase, Zachary S.
Primary Examiner(s)
Nguyen, Phung

Application Number

US13/427,995
Publication Number

US 20140070942A1
Time in Patent Office

1,138 Days
Field of Search

340/532, 340/539.11, 340/539.1, 340/573.1, 340/384.4, 340/286.05, 340/628, 381/71.1, 381/150
US Class Current

340/532
CPC Class Codes

G08B 13/1609 using active vibration dete...

G08B 21/02 Alarms for ensuring the saf...

PASS-Tracker: apparatus and method for identifying and locating distressed firefighters

First Claim

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Abstract

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18 Claims

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PASS-Tracker: apparatus and method for identifying and locating distressed firefighters

First Claim

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Accused Products

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Abstract

Citations

18 Claims

Specification

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Solutions

Use Cases

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