Self-locating remote monitoring systems

Claims

What is claimed is:

1. A man-over-board alarm system, comprising:

a remote unit including a navigational receiver for receiving navigational information defining a location of the remote unit, and a radio transmitter for transmitting the remote unit location;

a base station including a radio receiver for receiving the remote unit location;

the remote unit and the base station defining a separation distance between the remote unit and the base station; and

the base station including measuring means for determining whether the separation distance exceeds a predetermined limit, and means responsive to the measuring means for giving an alarm and a display for displaying the remote unit location,

whereby, a separation distance exceeding the predetermined limit causes a man-over-board alarm and the base station displays the location of the remote unit.

2. The man-over-board system as set forth in claim 1, wherein the navigational information is received from global positioning system satellites.

3. The man-over-board system as set forth in claim 1, wherein the remote unit further includes a sensor having an output signal, the sensor defining a sensor status, and the radio transmitter connected to the output signal for transmitting the sensor status, and the base station including a display for displaying the sensor status.

4. The man-over-board system as set forth in claim 3, wherein the sensor detects immersion in water.

5. The man-over-board system as set forth in claim 3, wherein the sensor output signal is provided by a remote unit manually operated switch, and defines a panic button.

6. The man-over-board system as set forth in claim 3, wherein the remote unit is battery operated and includes a low-battery-power circuit for providing the sensor output signal.

7. The man-over-board system as set forth in claim 1, wherein the base station includes a radio transmitter and the remote unit includes a radio receiver defining two-way radio communication between the remote unit and the base station.

8. The man-over-board system as set forth in claim 7, wherein the base station transmits a control signal to the remote unit for initiating a beacon for use in locating the remote unit.

9. The man-over-board system as set forth in claim 8, wherein the beacon is a light source.

10. The man-over-board system as set forth in claim 8, wherein the beacon is an audible source.

11. The man-over-board system as set forth in claim 8, wherein the remote radio transmitter is able to transmit at more than one power level and the beacon defines a higher power level.

12. An invisible fence system for monitoring a movable subject, comprising:

a remote unit including,

a navigational receiver for receiving navigational information defining a location of the remote unit,

means for storing information defining a geographical region,

means for comparing the location of the remote unit with the defined geographical region and determining a positional status, the status defining a relation between the location of the remote unit and the defined geographical region, and

a radio transmitter for transmitting the positional status; and

a base station including,

a radio receiver for receiving the positional status,

means for providing an alarm responsive to a predetermined change in the positional status,

whereby the remote unit is attached to the monitored subject and its location in relation to the defined geographical region provides an alarm responsive to a predetermined change in the relation.

13. The invisible fence system as set forth in claim 12, wherein the navigational information is received from global positioning system satellites.

14. The invisible fence system as set forth in claim 12, wherein the defined geographical region has at least one boundary and is defined in terms of the at least one boundary.

15. The invisible fence system as set forth in claim 12, wherein the defined geographical region includes defined subdivisions, and the positional status indicates a remote unit location relative to the defined subdivisions.

16. The invisible fence system as set forth in claim 15, wherein a first subdivision defines a warning zone, and a second subdivision defines a punishment zone, and wherein the remote unit includes alarm means responsive to a location within the warning zone, and also includes means for applying a mild electric shock to the monitored subject responsive to a location within the punishment zone.

17. The invisible fence system as set forth in claim 12, wherein the base station includes a radio transmitter and the remote unit includes a radio receiver, the remote unit and the base station defining a two-way communications link.

18. The invisible fence system as set forth in claim 17, wherein the two-way communications link further includes access to a cellular telephone network for completing the two-way link.

19. The invisible fence system as set forth in claim 17, wherein the two-way communications link further includes access to a wireless communications network for completing the two-way link.

20. The invisible fence system as set forth in claim 17, wherein the two-way communications link further includes access to a radio relay network for completing the two-way link.

21. A stationary environmental monitor, comprising:

a remote unit including,

storage means for storing information defining the location of the remote unit,

an environmental sensor providing an output signal and defining a sensor status,

a radio transmitter connected for transmission of the location defining information and the sensor status, and

a radio receiver;

a base station including,

a radio receiver for receiving the location defining information and the sensor status,

a radio transmitter, and

means responsive to a predetermined change in the sensor status for displaying the location of the remote unit and providing an alarm; and

the remote unit and the base station defining a two-way communications link,

whereby the location of the remote unit is stored in the storage means and a change in the sensor status causes the location to be displayed and an alarm given at the base station.

22. The stationary environmental monitor as set forth in claim 21, wherein the two-way communications link further includes access to a cellular telephone network for completing the two-way link.

23. The stationary environmental monitor as set forth in claim 21, wherein the two-way communications link further includes access to a wireless communications network for completing the two-way link.

24. The stationary environmental monitor as set forth in claim 21, wherein the two-way communications link further includes access to a radio relay network for completing the two-way link.

25. A personal alarm system, comprising:

a remote unit including a radio transmitter and a radio receiver, the remote unit capable of transmitting at more than one power level, and defining a higher power level;

a base station including a radio receiver and a radio transmitter;

the remote unit and the base station defining a two-way communication link;

the remote unit including at least one hazard sensor providing an output signal and defining a sensor status;

the remote unit radio transmitter being connected to the at least one sensor output signal for communicating the sensor status to the base station;

the base station including means responsive to the sensor status for giving an alarm when a hazard is detected; and

the base station transmits at predetermined intervals, and the remote unit transmitter switches to the higher power level if a base station transmission is not received within an interval slightly longer than the predetermined interval.

26. A personal alarm system, comprising:

a remote unit including a navigational receiver for receiving navigational information, a demodulator for demodulating the received navigational information, timing circuits for providing precise time-of-day information, a sensor for detecting a personal hazard, the sensor having an output signal and defining a sensor status, and a radio transmitter for transmitting the demodulated navigational information, the precise time-of-day information, and the sensor status;

a base station including a radio receiver for receiving the demodulated navigational information, the precise time-of-day information, and the sensor status;

the base station also including computational means connected for combining the received demodulated navigational information and the precise time-of-day information to determine a location of the remote unit, and a first display for displaying the location of the remote unit; and

the base station also including a second display for displaying the sensor status and means responsive to a change in the sensor status for giving an alarm,

whereby, a change in the sensor status sounds an alarm and the remote unit location is displayed.

27. The personal alarm system as set forth in claim 26, further including:

the base station having a radio transmitter; and

the remote unit having a radio receiver and defining a two-way radio link with the base station.

28. A personal alarm system as set forth in claim 27, wherein the two-way communications link further includes access to a cellular telephone network for completing the two-way link.

29. The personal alarm system as set forth in claim 27, wherein the two-way communications link further includes access to a wireless communications network for completing the two-way link.

30. The personal alarm system as set forth in claim 27, wherein the two-way communications link further includes access to a radio relay network for completing the two-way link.

31. The personal alarm system as set forth in claim 26, wherein the sensor also includes a manually operated switch providing the output signal and defining a panic button, and the means for giving an alarm is responsive to the panic button.

32. A personal alarm system, comprising:

a remote unit including,

a navigational receiver for receiving navigational information,

a demodulator for demodulating the received navigational information,

timing circuits for providing precise time-of-day information, and

a radio transmitter for transmitting the demodulated navigational information and the precise time-of-day information; and

a base station including,

a receiver for receiving the demodulated navigational information and the precise time-of-day information,

computational means connected for combining the demodulated navigational information and the precise time-of-day information to determine a location of the remote unit,

means for storing information defining a geographical region,

means for comparing the computed location with the defined geographical region and determining a positional status, the status defining a relation between the location of the remote unit and the defined geographical region, and

means for displaying the location of the remote unit in response to a predetermined positional status.

33. The personal alarm system as set forth in claim 32, further including an alarm responsive to a predetermined positional status.

34. The personal alarm system as set forth in claim 32, further including:

the base station having a radio transmitter, and

the remote unit having a radio receiver and defining a two-way communications link with the base station.

35. The personal alarm system a