Communications: electrical – Condition responsive indicating system – With particular coupling link
Reexamination Certificate
1999-07-20
2001-05-01
Crosland, Donnie L. (Department: 2632)
Communications: electrical
Condition responsive indicating system
With particular coupling link
C340S870030, C340S870030, C340S573100, C340S010510, C128S903000, C128S904000, C607S060000, C702S019000, C706S924000, C706S911000
Reexamination Certificate
active
06225901
ABSTRACT:
BACKGROUND OF THE INVENTION
This invention relates to a portable, real-time, reprogrammable sensor monitoring system.
For over fifty years, governments have used both active and passive detection systems to track vehicles and troop movements. Intelligence communities have employed multi-million dollar satellite-based sensors including high-resolution cameras, infrared, and radio direction finding equipment to covertly monitor areas of interest. Only recently have the economies of scale and manufacturing breakthroughs permitted using derivatives of this technology for commercial applications.
Early commercial applications were satellite-based vehicle tracking systems using communications satellites in stationary (geosynchronous) orbits above the earth. These systems all employ terminal-antenna packages that are suitcase size and have healthy price tags, and consequently have been limited in use to large trucking firms. To reduce the price and terminal size for general consumer use, there have been two approaches. One employs wireless networks using low-earth orbiting satellites, and a second uses local cellular capabilities and other existing terrestrial wireless networks. With these new capabilities, the mobile asset monitoring and tracking market has grown to include all modes of surface transportation. The current major focus is in vehicle security and stolen vehicle recovery. The lower cost of communications has also permitted the market to expand into small fleet management, as well as navigation, traffic control, and roadside assistance.
Although these capabilities are valuable, the inventor has recognized that they do not address from a personal perspective a problem of increasing importance in society, which nearly everyone encounters during their lives. This problem is based upon the need to monitor a remotely located person or other subject that attempts to function normally but may or may be able to do so; and, if the subject does not function normally, notification must be made and corrective action taken. In a commonly encountered situation, an elderly or infirm relative attempts to lead a normal, independent life, but there is concern that, due to age or infirmity, the relative may not be able to do so. The concerned person may check from time-to-time by calling or visiting, but such checking may be unreliable because the relative may suddenly become ill long before the next check. Moreover, both the relative and the concerned person may be unable to recognize signs of impending distress. Too frequent a telephone call or visit may upset the relative.
There is a need for an approach that will allow a subject to function normally but be monitored and maintain communication as needed for abnormal or emergency situations. The present invention fulfills this need, and further provides related advantages.
SUMMARY OF THE INVENTION
The present invention provides an apparatus and a method for remotely monitoring the status of a living or an inanimate subject. The approach of the invention permits the monitoring of the condition and location of the subject, with interaction by the subject in some cases. The nature of the monitoring may be varied as necessitated by circumstances.
In accordance with the invention, an apparatus for remotely monitoring and assessing the status of a subject includes a portable monitoring unit comprising at least one automatic sensor associated with the subject, a portable-unit location-determining device; and a sensor interface unit. The sensor interface unit includes a programmable microprocessor having an active state and an inactive state. The microprocessor is operable to change from the inactive state to the active state responsive to the occurrence of any of a set of activating parameters for an activation condition including a preselected state of the at least one automatic sensor, a request signal from an external source, and, in the case of a human subject, a status signal by the subject. The microprocessor is in communication with the at least one automatic sensor and the location-determining device. The sensor interface unit further includes a communications device interface in communication with the microprocessor, a first transceiver of a communications device in communication with the communication device interface, and a power supply that provides power to the microprocessor, the communication device interface, and the first terminal of the communications device, as well as any other components of the portable unit that require power.
The one or more sensors are selected appropriately to the subject and the reasons for monitoring the subject. For example, the sensors could include an audio/visual sensor, a biological condition sensor, a chemical sensor, a meteorological sensor, a motion sensor, an electromagnetic sensor, a seismic sensor, or an apparatus sensor.
The location-determining device may either be selected to determine an absolute position of the portable monitoring unit or a relative position of the portable monitoring unit with respect to some other location. The location-determining device is preferably a global positioning system (GPS) receiver, but other types of devices such as triangulation devices or cellular-telephone-based devices may also be used.
Additionally, there is a central monitoring device including a second terminal of the communications device, and, desirably, a display in communication with the second terminal of the communications device and a computer that receives through the communications device and processes information from the sensor interface unit. The central monitoring device is typically able to maintain the necessary communications with a number of the portable monitoring units. The central monitoring device may be portable and may include its own location-determining capability for either an absolute position or a position relative to each portable monitoring unit.
In operation, the microprocessor is programmed with a set of activating parameters for the activation conditions and thereafter enters the inactive state. The microprocessor is activated responsive to the occurrence of the activating parameters of any of the activation conditions. The microprocessor obtains a status of the subject from the automatic sensor and the location of the portable unit from the location-determining device, and sends a status message, through the communications device, to the central monitoring device.
The microprocessor of the sensor interface unit is configured with a unique unit identifier, central monitoring device addressing data, and the initialization data and rules to be employed with each sensor embedded in or interfaced to the unit. The sensor interface unit may be configured on a sensor-by-sensor basis to transmit all sensor data received once activated, or all data meeting certain predefined criteria such as a time window, decibel level, or signal threshold. Data transmission from the sensor interface unit may be initiated manually, activated via a control signal from the central monitoring device, or automatically initiated in response to receipt of specified inputs from one or more of the interfaced sensors. In one embodiment, the sensor interface unit includes an audible tone or visible light generator feature that is activated by a call from the central monitoring device, and a means to activate/deactivate the feature.
The central monitoring device includes the second terminal of the communications device that permits it to communicate with any of a plurality of portable monitoring units, to uniquely identify each unit and the data relative to its configuration and use, to process the data received, and to display the processed data to an operator of the central monitoring device. The position data may be displayed on a map or referenced by distance and bearing relative to a known address or location. The central monitoring device includes the ability to forward the data received to other devices.
Thus, the present invention deals with events from the perspective of the subject being
Cardionet, Inc.
Crosland Donnie L.
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