Wireless integrated sensor network using multiple relayed communications

US 6,208,247 B1
Filed: 08/18/1998
Issued: 03/27/2001
Est. Priority Date: 08/18/1998
Status: Expired due to Term

First Claim

Patent Images

1. An electronic communicating and sensing station, comprising:

a sensor which provides an output indicative of a sensed condition, a digital signal processor, coupled to receive the sensor output and configured to compare characteristics of the sensor output to a stored set of characteristics, and producing an output based upon said comparison, a programmable microprocessor coupled to said digital signal processor to evaluate its output, a wireless transmitter that is controlled by said programmable microprocessor, to transmit information about the sensed condition, and a wireless receiver that is controlled by said programmable microprocessor to receive data and instructions for programming said programmable microprocessor;

wherein said transmitter and receiver operate in a plurality of communication channels that are defined time periods, subdivisions of a longer periodically repeating time frame.

View all claims

8 Assignments

Timeline View

Assignment View

0 Petitions

Accused Products

Abstract

Wireless integrated miniature sensing stations which can be organized into a communicating network allow sensitive detection and analysis of vibration, infrared radiation, sound, or other physical signals indicative of an intruder or condition to be monitored over a wide area. The sensing stations operate on low power and include a sensor or sensors, a digital signal processor, a microprocessor, and a wireless transceiver for communication. Network communication is facilitated by multiple relayed transmissions from station to station.

742 Citations

9 Claims

1. An electronic communicating and sensing station, comprising:
- a sensor which provides an output indicative of a sensed condition, a digital signal processor, coupled to receive the sensor output and configured to compare characteristics of the sensor output to a stored set of characteristics, and producing an output based upon said comparison, a programmable microprocessor coupled to said digital signal processor to evaluate its output, a wireless transmitter that is controlled by said programmable microprocessor, to transmit information about the sensed condition, and a wireless receiver that is controlled by said programmable microprocessor to receive data and instructions for programming said programmable microprocessor;
  
  wherein said transmitter and receiver operate in a plurality of communication channels that are defined time periods, subdivisions of a longer periodically repeating time frame.
- View Dependent Claims (2)
- - 2. The station of claim 1, wherein said programmable microprocessor is programmed:
    - (a) to enable said wireless receiver to receive data during a defined time period, (b) to store data that is received during said time period, and (c) to cause said wireless transmitter to transmit the data during a later defined time period.

3. An electronic communicating and sensing station, comprising:
- a sensor which provides an output indicative of a sensed condition, a digital signal processor, coupled to receive the sensor output and configured to compare characteristics of the sensor output to a stored set of characteristics, and producing an output based upon said comparison, a programmable microprocessor coupled to said digital signal processor to evaluate its output, a wireless transmitter that is controlled by said programmable microprocessor, to transmit information about the sensed condition, a wireless receiver that is controlled by said programmable microprocessor to receive data and instructions for programming said programmable microprocessor;
  
  a data buffer for storing data from said sensor, a spectral analyzer which operates on the data in said data buffer, to compute a power spectral density in at least one spectral band, and one or more comparators, each comparing the power spectral density in a respective spectral band computed by said spectral analyzer with a respective stored power spectral density and producing an output signal when said power spectral density exceeds said stored power spectral density, the output signals from said comparators together forming the output of said digital signal processor.
- View Dependent Claims (4, 5, 6, 7)
- - 4. The station of claim 3, wherein said sensor, said digital signal processor, said microprocessor, said wireless transmitter and said wireless receiver are integrated on a common substrate.
  - 5. The station of claim 3, wherein said spectrum analyzer comprises at least one digital filter which operates on the contents of said data buffer and computes a filtered data output representing signal components from said sensor in a selected spectral band.
  - 6. The station of claim 5, further comprising:
7. The station of claim 3, wherein said microprocessor operates at a low power when the outputs from said comparators are below a predetermined threshold, and operates at a higher power level when the output from at least one of said comparators exceeds said threshold.

8. An electronic communicating and sensing station, comprising:
- a digital signal processor, adapted to receive a signal indicative of an environmental condition and configured to compare characteristics of the sensor output to a stored set of characteristics, and producing an output based upon said comparison, a programmable microprocessor coupled to said digital signal processor to evaluate its output, a wireless transmitter that is controlled by said programmable microprocessor, to transmit information about the environmental condition, and a wireless receiver that is controlled by said programmable microprocessor to receive data and instructions for programming said programmable microprocessor;
  
  wherein said digital signal processor comprises;
  
  a data buffer for storing data from said sensor, a spectrum analyzer which operates on the data in said data buffer, to compute a power spectral density in at least one spectral band, and one or more comparators, each comparing the power spectral density in a respective spectral band computed by said spectrum analyzer with a respective stored power spectral density and producing an output signal when said power spectral density exceeds said stored power spectral density, the output signals from said comparators together forming the output of said digital signal processor.

9. A network of electronic communicating and sensing stations, comprising at least two stations, a first station and a second station, each comprising:
- a sensor which provides an output indicative of a sensed condition, a digital signal processor, coupled to receive the sensor output and configured to compare characteristics of the sensor output to a stored set of characteristics, and producing an output based upon said comparison, a programmable microprocessor coupled to said digital signal processor to evaluate its output, a wireless transmitter that is controlled by said programmable microprocessor to transmit information about the sensed condition, and a wireless receiver that is controlled by said programmable microprocessor to receive data and instructions for programming said programmable microprocessor;
  
  wherein said second station is arranged to communicate with said first station by receiving said information by said wireless receiver; and
  
  wherein said digital signal processor comprises;
  
  a data buffer for storing data from said sensor, a spectrum analyzer which operates on the data in said dati buffer, to compute a power spectral density in at least on( spectral band, and one or more comparators, each comparing the power spectral density in a respective spectral band computed by said spectrum analyzer with a respective stored power spectral density and producing an output signal when said power spectral density exceeds said stored power spectral density, the outputs from said comparators together forming the output of said digital signal processor.

Specification

Resources

Litigation Campaign Assessment

Current Assignee
Skyworks Solutions Incorporated
Original Assignee
Rockwell Science Center LLC
Inventors
Clare, Loren P., Marcy, 5th, Henry O., Twarowski, Allen J., Kaiser, William, Mickelson, Wilmer A., Yakos, Michael D., Loeffelholz, Christian J., Engdahl, Jonathan R., Agre, Jonathan R.
Primary Examiner(s)
Crosland, Donnie L.

Application Number

US09/135,762
Time in Patent Office

952 Days
Field of Search

340/539, 340/531, 340/511, 340/825.69, 340/825.72, 340/825.5, 340/825.22, 340/854.6, 340/870.16, 340/870.18, 340/870.21, 340/870.07, 340/870.09
US Class Current

340/539.19
CPC Class Codes

G01V 1/223   Radioseismic systems

G08B 25/009   Signalling of the alarm con...

G08B 25/10   using wireless transmission...

Wireless integrated sensor network using multiple relayed communications

First Claim

8 Assignments

0 Petitions

Accused Products

Abstract

742 Citations

9 Claims

Specification

Solutions

Use Cases

Quick Links

Wireless integrated sensor network using multiple relayed communications

First Claim

8 Assignments

Subscription Required

Subscription Required

0 Petitions

Subscription Required

Accused Products

Subscription Required

Abstract

742 Citations

9 Claims

Specification

Subscription Required

Solutions

Use Cases

Quick Links