RU96110285A - METHOD AND DEVICE FOR JOINT USE OF SIGNAL TRANSMISSION FORMATS ON THE COMMUNICATION CHANNEL - Google Patents

Claims (10)

1. A method of sharing the first and second formats of signal transmission over a communication channel in a communication system, comprising a system controller and a first and second plurality of receivers with selective calling, supporting communication in the first and second signal transmission formats, respectively, wherein the first signal transmission format is synchronous and contains frames transmitted with a frequency not less than the minimum frame repetition rate in the selected frames from the set of specified frame positions and each of the receivers with selective calling vom first plurality of pre-programmed basic frame position corresponding to one of a plurality of predetermined frame positions, whereby with
using the controller, program the system parameters stored in the first plurality of receivers with selective calling to determine the energy saving interval of the system power supply, while the programmable parameter of the system is designed to provide the first plurality of receivers with selective calling the ability to receive messages transmitted in at least one of the set frame positions, and at least one position is determined from the preprogrammed main frame position and system parameters transmit the frames of the first signal transmission format using at least the minimum frame repetition frequency, each transmission having a beginning and an end, and send a second signal transmission format during the time intervals between the end of the transmission of the first signal transmission format and the beginning of the next transmission of the first format transmission of signals, while the system parameter contains an integer of system S, and at the programming stage, an integer of system S is controlled to enable the first set of receivers with selective calling to receive the transmitted messages at any position of the frame selected from the main position of the frame, and the frame set N x 2 ^S positions of the frame outside the main position of the frame, where N is any integer.  2. The method according to claim 1, characterized in that part of the receivers with selective calling from the first set is pre-programmed to the value of the receiver to determine the maximum interval of energy saving of the battery of the receiver for the specified part of the receivers, and in part from the set of receivers with selective calling, the parameter is independently changed system to the receiver parameter, taking into account the system parameter, which determines the interval of energy saving of the battery of the system is greater than the maximum interval of energy saving of the battery of the receiver.  3. The method according to claim 1, characterized in that at the programming stage, the integer number of the system S is set to zero to enable a plurality of receivers to receive transmitted messages at any possible position of the frame of the first signal transmission format, and at the transmission stage, a separate frame is encoded for transmission when S is zero. 4. The method according to claim 1, characterized in that at the programming stage, the value of the integer number of the system S is set to greater than zero, and at the stage of transmission, encoding is performed using 2 ^S frames per transmission.  5. The method according to claim 1, characterized in that at the stage of transmission, frames of the first signal transmission format are additionally sent at a frame repetition rate higher than the minimum frame repetition rate in response to an increase in the message flow to process a larger message flow than that which can be processed at minimum repetition rate. 6. The controller of the control system sharing the first and second formats of signal transmission over a communication channel in a communication system, including a system controller and a first and second set of receivers with selective calling, supporting communication in the first and second signal transmission formats, respectively, wherein the first signal transmission format is synchronous and contains frames transmitted with a frequency of at least the minimum frame repetition rate in the selected frames from the set of specified frame positions, and each of the receivers The selective call of the first set is pre-programmed to the main frame position corresponding to one of the set of frame positions, containing an input page (search call) for receiving requests (call pages) from the calling program sending messages to one of the first and second sets of selective receivers with call, a page (call) queue connected to the page (call) input for storing addresses and selective messages corresponding to received page requests (you calls) for subsequent transmission, a processor connected to a page (call) queue for controlling an encoder / transmitter controller, in order to transmit frames of a first signal transmission format using at least a minimum frame repetition rate, the frames containing selective call addresses and messages, stored in a page queue, and each transmission has a beginning and an end, and an encoder / transmitter controller connected to the processor for transmitting frames of the first signal transmission format , a programmer connected to a processor for programming a system parameter stored in a first plurality of receivers with a selective call to determine an interval of energy saving of a system battery and serving to enable a first plurality of selective receivers with a call to receive transmitted messages in at least one of a plurality of preset frame positions determined on the basis of the preprogrammed main position of the frame and the system parameter, and an injector connected to the percent An essor for controlling an encoder / transmitter controller that sends frames (message sendings) of the second signal transmission format during the time intervals between the end of the transmission of the first signal transmission format and the beginning of the next transmission of the first signal transmission format, while the system parameter contains an integer of system S, and the programmer includes a frame controller that controls the integer of the S system to enable the first set of receivers with selective call to receive transmitted messages in any the frame position is selected from the main frame position, and the frame sets N x 2 ^S frame positions outside the main frame position, where N is any integer, and an encoder controller connected to the frame controller instructs the processor to encode 2 ^S frames per transmission.  7. The system controller according to claim 6, characterized in that the frame controller comprises a zero setting device connected to the encoder controller to set the integer number of system S to zero, which allows a plurality of selective call receivers to receive transmitted messages whenever possible at each frame position first signal transmission format.  8. The system controller according to claim 6, characterized in that the frame controller comprises a device for setting a value other than zero, connected to the encoder controller to set the integer value of the system S to be greater than zero, which allows a plurality of selective call receivers to receive transmitted messages not in every position of the frame of the first signal transmission format.  9. The system controller according to claim 6, characterized in that it further comprises a high-speed controller connected to the processor, instructing the processor to send frames of the first signal transmission format at a higher frame repetition rate than the minimum frame repetition rate, in response to an increasing flow of information exchange messages for processing a higher flow of information exchange compared to a stream that can be processed at a minimum frame rate. 10. A selective call receiver operating on a first signal transmission format for sharing a communication channel with a plurality of selective call receivers operating on a second signal transmission format in a communication system, including a system controller in which the first signal transmission format is synchronous and contains transmitted frames with a repetition rate less than the minimum frame repetition rate in the selected sets of specified frame positions, and contains an antenna for receiving radio signals containing hell res, messages and control commands, a receiver element connected to the antenna designed to demodulate received radio signals to obtain addresses, messages and control commands, a decoder connected to a receiver element for encoding addresses, a controller receiving a signal from a decoder and connected to a receiver element for processing messages and control commands, the first memory element connected to the controller for storing the preprogrammed main frame position corresponding to one at a plurality of predetermined frame positions, the second memory element coupled to the controller for storing parameter of the system, the control system receives the instruction and determines the battery saving interval for enabling the selective call receiver to receive transmitted messages in at least one of the plurality of predetermined
frame positions, determined on the basis of the preprogrammed main frame position and system parameter, a synchronizer connected to the first and second memory elements and a controller for controlling a selective call receiver receiving frames from the first signal transmission format transmitted in at least one position using at least a minimum frame repetition rate, with each transmission having a beginning and an end, and a skip element connected to the synchronizer for controlling a selective call receiver that transmits transmissions sent to the second signal transmission format during the time intervals between the end of the transmission of the beginning of the signal transmission format and the beginning of the next transmission of the first signal transmission format, the system parameter contains an integer of system S, and the receiver with the selective call further comprises a frame monitoring device to enable the first plurality of selective call receivers to receive transmitted messages at any position frame selected from a preprogrammed base frame position, the frame sets N x 2 ^S frame positions outside the preprogrammed base frame position, where N - any integer.