KR970703088A - Multiple Subchannel Flexible Protocol Method and Apparatus - Google Patents

Abstract

A communication system 100 that broadcasts over a plurality of subchannels has at least one of a plurality of subchannels operating as a control channel for addressing subscribers and receives them via a set or subset of the plurality of subchannels. Receiving a message directed by the resource controller through a resource controller unit 204 directing the data controller, an input means 240 for transmitting a message to the resource controller unit, and predetermined subchannels and time slots directed by the resource controller. And an optional call receiver 106 addressable by the resource controller unit.

Description

Multiple subchannel Flexible Protocol Method and Apparatus

Since this is an open matter, no full text was included.

1 is an electrical block diagram of a data transmission system according to the invention,

2 is an electrical block diagram of a terminal for processing and transmitting message information in accordance with the present invention;

3 through 5 are timing diagrams illustrating the transmission format of the signaling protocol used in accordance with the present invention.

Claims (10)

A communication system for broadcasting over a plurality of subchannels, the communication system comprising at least one of a plurality of subchannels operating as a control channel for addressing a subscriber and receiving messages or data through the set or subset of the plurality of subchannels A resource controller unit for directing to; Input means for sending a message to the resource controller unit; And an optional call receiver addressable by the resource controller unit, capable of receiving a message directed by the resource controller via a predetermined subchannel and time slot directly by the resource controller. Communication system. The message or data of claim 1, wherein the control channel is further configured to transmit a message or data through a predetermined time slot within a TDD frame and within the set or subset of the plurality of subchannels or within a portion of one of the plurality of subchannels. Addressing and directing the subscriber to receive a message. A terminal in a communication system that broadcasts over a plurality of subchannels, the terminal having at least one of a plurality of subchannels acting as a control channel for addressing subscribers and sending messages or data through the set or subsets of the plurality of subchannels. A resource controller unit to direct to receive the data; Input means for sending a message to the resource on controller unit; And a transmitter for addressing a selective call receiver addressable by the resource controller unit, capable of receiving a message directed by the resource controller via a predetermined subchannel and time slot direct by the resource controller. Terminal in a communication system. 4. The communication system of claim 3, wherein the control channel resides within a portion of the lowest or first subchannel and is used to address and vector messages in the remaining portion of the lowest subchannel and in other subchannels. terminal. A selective call receiver capable of receiving a message broadcast through a plurality of subchannels, comprising: a receiver module capable of receiving a selective call signal through a plurality of subchannels and providing a received signal, coupled to the receiver module Decoder module; Mixing the received signal from the receiver module and the injection signal from the synthesizer to provide a mixed signal to the decoder module having a corresponding bank of passband filters, detectors and decoders for each of the plurality of subchannels. A bank of mixers to make; And a controller for controlling the decoder module, the synthesizer, a sensory alarm device, and a display device, all coupled to a controller. An optional call receiver capable of receiving a message broadcast through a plurality of subchannels, comprising: a receiver module capable of receiving a selective call signal through a plurality of subchannels and providing a received signal; And coupled to the receiver module, providing functions of threshold level extraction, level synchronization, level synchronization correlation, data decoding and data combining for each subchannel, and for battery saving, de-multiplexing, de-interleaving, address correlation, phase And a digital signal processor for providing general functionality of selection and phase timing. A method for queuing messages for transmission within a data communication terminal having inputs for receiving messages and for assigning them within a plurality of transmission frames and subchannels designated for transmission to multiple data communication receivers. Storing the received message in a first memory area; Generating a periodic timing signal; Recovering the stored message from the first memory in response to the periodic timing signal being generated; Queuing the recovered message for the designated transmission frame and subchannel in a second memory area having a predetermined queue capacity; Monitoring an expected queue capacity per second memory queue capacity and one or more subsequent transmission frames and subchannels; Determining when a message stored in the second memory area exceeds the predetermined queue capacity; Storing the recovered excess message in a third memory area; Generating designation information designating one or more subsequent transmission frames and subchannels while the excess message stored in the third memory area is being transmitted; Transmitting the message and designation information stored in the second memory area within the designated transmission frame and subchannel; And transmitting said excess message stored in said third memory area within said one or more subsequent transmission frames specified by said designation information. CLAIMS 1. A method for receiving and decoding selective call messages sent to a plurality of selective call receivers in the form of an interleaved block of time division signals over a plurality of subchannels, the method comprising: at least one of the plurality of selective call receivers; Decoding at least a first received block of information having address and vector information for an addressed message, wherein at least a portion of the first received block is a control channel; Determining from the address and vector information where the first addressed message begins and the length of the first message; And decoding a subsequent block of information on the plurality of subchannels to decode the first addressed message, which may reside in a contiguous section of the block and a portion of the block on the plurality of subchannels. Receiving and decoding the optional paging message. 9. The selective call message of claim 8, wherein said decoding a subsequent block of information further comprises simultaneously demodulating and decoding information on said plurality of subchannels directed by said address and vector information. Method of receiving and decoding. 10. The method of claim 8, wherein the address and vector information includes a starting address and a message length for a plurality of messages, wherein the plurality of messages can span a plurality of subchannels and a plurality of blocks within a time frame. Receiving and decoding a selective call message. ※ Note: The disclosure is based on the initial application.