Telephonic communications – With check operated control – At terminal station
Reexamination Certificate
1998-06-22
2001-05-15
Kuntz, Curtis (Department: 2643)
Telephonic communications
With check operated control
At terminal station
C379S040000, C379S039000, C379S143000
Reexamination Certificate
active
06233327
ABSTRACT:
BACKGROUND OF THE INVENTION
The present invention generally relates to transceivers, and more particularly to a general purpose radio frequency (RF) transceiver having an open-ended architecture that readily adapts it for a wide variety of uses and applications.
There are a wide variety of circumstances in which it is desired or desirable to communicate information to a single location. For example, in the banking industry, when a user accesses an automated teller machine (ATM), it may be desirable to communicate the user identifying information (e.g., account and PIN number) to a central location to verify that the PIN number matches the account number. Likewise, if the ATM breaks down, malfunctions, runs out of money, takes in a predetermined amount of money, or for a variety of other reasons, it may be desirable to communicate such information to a centralize location that can respond accordingly (e.g., dispatch a person to repair or otherwise service machine).
In the vending machine industry, it may be desirable to communicate information relating to the product status (e.g., low or out of stock) of a given vending machine to a central location, so that service personnel may be dispatched to replenish the product. In similar fashion, it may be desirable to communicate machine operational status to a centralized location for purposes of dispatching repair or service personnel. Thus, for example, if the vending machine malfunctions, runs out of change, acquires too much currency, or for other reasons, it may be desired to communicate this information to a centralized location.
One way this type of information has been communicated in the past has been to dispatch personnel to periodically check on such machinery. If problems were noted, then the dispatched personnel communicated this information to a central dispatch or service location. One shortcoming with this approach, however, is that it is relatively expensive to employ an individual to make these periodic status checks. Also, a machine may be disabled or otherwise in need of service for a undesirably lengthy period of time between service checks, before the service condition is noted and reported.
Accordingly, it is desired to provide an apparatus that effectively addresses the these and other shortcomings of the prior art.
SUMMARY OF THE INVENTION
Certain objects, advantages and novel features of the invention will be set forth in part in the description that follows and in part will become apparent to those skilled in the art upon examination of the following or may be learned with the practice of the invention. The objects and advantages of the invention may be realized and obtained by means of the instrumentalities and combinations particularly pointed out in the appended claims.
To achieve the advantages and novel features, the present invention is generally directed to a system for communicating information to a predetermined location. In accordance with one aspect of the invention, the system includes a transmitter disposed at a first location and configured to transmit a signal containing an instruction code to a transceiver. The instruction code uniquely identifies an instruction to be carried out. Preferably, the transmitter transmits a relatively low-power radio-frequency electromagnetic signal. The system further includes a transceiver disposed remotely from the transmitter (but within range of the transmitted signal) and is configured to receive the transmitted signal. The transceiver circuit includes a line interface circuit configured to interface with a telephone line that is part of the public-switched telephone network (PSTN) and initiate a phone call over the telephone line. In this regard, the transceiver further includes a controller configured to control both the reception of the transmitted signal and to control the communication of information over the telephone line. Finally, the system includes a central station remotely located from said transceiver but being in communication with said transceiver via the PSTN. The central station further includes a decoder configured to decode the instruction code.
As will be appreciated, the system summarized above provides an extremely robust and flexible platform for providing general purpose communications to a central location. In this regard, the term “general purpose” may also be referred to as an “open ended” platform that may be readily adapted for a wide variety of uses. The instruction code is a relatively small data value that may be decoded to define a wide variety of functions. For example, an instruction code a single byte (eight bits) in size may define up to two hundred fifty six different functions or instructions. Similarly, an instruction code two bytes in size may define over sixty-five thousand (2
16
) functions or instructions.
In operation, the transmitter transmits the instruction code, perhaps along with other information, to a transceiver located remotely, but generally nearby. The transceiver, which will preferably be integrated into a pay-type public telephone (but which can be integrated into virtually any telephone or other device having access to the PSTN), receives the transmitted information including the instruction code, and communicates this information to a predetermined location over the PSTN. In this regard, the transceiver is configured with a controller or other appropriate component to place a call to a predetermined phone number. Once the connection is established, the instruction code may be communicated (as by modem) to the predetermined location. The predetermined location (which may be a central dispatch location) then decodes the instruction code to identify the function or instruction that corresponds to the code, and further initiates an appropriate response.
To illustrate the foregoing summary with a more concrete example, consider a vending machine that is running low on a particular product. A sensor within the vending machine may make this determination and signal the transmitter accordingly. The transmitter then broadcasts a transmission that includes an instruction code that corresponds to the low product alert. The transceiver receives the broadcast transmission and communicates this information to a predetermined phone number. In this respect, the predetermined phone number may also be communicated from the transmitter to the transceiver along with the instruction code. Assuming that the predetermined number corresponds to a central dispatch center, the center answers the phone call placed by the transceiver and receives the instruction code. It then decodes the instruction code to determine that a particular product is low in the vending machine, and it may dispatch an appropriate service person to restock the machine. To this end, the center may be configured to generate an email message to route to an appropriate service person to handle the request.
In accordance with another aspect of the invention, a method is provided for performing an automated service request. In accordance with this aspect of the invention, the method includes the steps of sensing a service condition and notifying a transmitter of the service condition. Then the method transmits an information signal from the transmitter to a remotely-located transceiver, wherein the information signal includes a function code that specifies the service condition. Thereafter, the method places a call from the transceiver to a central station over a phone line comprising a part of the public switched telephone network (PSTN), and communicates at least the function code from the transceiver to the central station. Finally, the method decodes the function code at the central station to identify the service request.
In accordance with a broader aspect of the present invention a multi-function, general purpose transceiver is provided. In accordance with this broad aspect of the invention, the transceiver includes a receiver circuit for receiving a signal transmitted from a remotely located transmitter. The transceiver also includes a transmitt
Barnie Rexford
Kuntz Curtis
StatSignal Systems, Inc.
Thomas Kayden Horstemeyer & Risley
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