Patent US5371548 - System for transmission of digital data using orthogonal frequency division ...

A system is disclosed which provides a significantly enhanced transmission rate for digital data transmitted over a channel, while also providing immunity to signal interference caused by multipath reception. One embodiment of the system transmits a signal containing digital data in the vertical blanking interval of a television signal. Before being transmitted, the digital data is modulated by a process called orthogonal frequency division multiplexing, or OFDM. A guard interval is optionally prefixed to the front end of the data signal to provide additional immunity to multipath interference. A further feature of the present system is the optional inclusion in the transmitted signal of an error correcting code which allows detection and correction of multiple sequential data transmission errors.

Inventor: Thomas H. Williams
Original Assignee: Cable Television Laboratories, Inc.
Primary Examiner: Chris Grant
Current U.S. Classification: 348/478; 348/473; 348/E07.024; 348/E07.031; 348/E07.033
International Classification: H04N 7087; H04N 708

View patent at USPTO
Search USPTO Assignment Database

Citations

Cited Patent	Filing date	Issue date	Original Assignee	Title
US3511936	May 26, 1967	May 12, 1970		MULTIPLY ORTHOGONAL SYSTEM FOR TRANSMITTING DATA SIGNALS J THROUGH FREQUENCY OVERLAPPING CHANNELS
US4882614	Jul 7, 1987	Nov 21, 1989	Matsushita Electric Industrial Co., Ltd.	Multiplex signal processing apparatus
US4884139	Dec 23, 1987	Nov 28, 1989	Etat Francais, Represente Par Le Secretariat D'etat Aux Post Es Et Telecommunications (Centre National D'etudes Des Telecommunications)	Method of digital sound broadcasting in television channels with spectrum interlacing
US5153723	Jul 24, 1991	Oct 6, 1992	Zenith Electronics Corporation	HDTV audio subsystem with timing characteristics compatible with video subsystem
US5291289	Mar 20, 1992	Mar 1, 1994	North American Philips Corporation	Method and apparatus for transmission and reception of a digital television signal using multicarrier modulation

Referenced by

Citing Patent	Filing date	Issue date	Original Assignee	Title
US5459522	Jun 10, 1994	Oct 17, 1995	Zenith Electronics Corporation	Method for acquisition and display of an on-screen program guide
US5537398	May 12, 1995	Jul 16, 1996	Motorola, Inc.	Apparatus for multi-rate simulcast communications
US5548792	Jun 4, 1993	Aug 20, 1996	France Telecom	Multi-user information retrieval system with transfer delay and high bit rate
US5589754	Aug 24, 1995	Dec 31, 1996	ABB Industry Oy	Method for determining a stator flux estimate for an asynchronous machine
US5682376	Dec 14, 1995	Oct 28, 1997	Matsushita Electric Industrial Co., Ltd.	Method of transmitting orthogonal frequency division multiplex signal, and transmitter and receiver employed therefor
US5812523	Mar 30, 1995	Sep 22, 1998	Telia AB	Method and device for synchronization at OFDM-system
US5815488	Sep 28, 1995	Sep 29, 1998	Cable Television Laboratories, Inc.	Multiple user access method using OFDM
US5886749	Jan 28, 1997	Mar 23, 1999	Cable Television Laboratories, Inc. Nippon Hoso Kyokai	Demodulation using a time domain guard interval with an overlapped transform
US5940137	Feb 6, 1997	Aug 17, 1999	TRW Inc.	Symbol timing generation and recovery for data transmission in an analog video signal
US6115354	Dec 27, 1996	Sep 5, 2000	Timlar Konle	Multiple carrier transmission in common-wave networks
US6172993	Dec 1, 1997	Jan 9, 2001	Daewoo Electronics Co., Ltd.	Frame synchronization method and apparatus for use in digital communication system utilizing OFDM method
US6178158	Oct 9, 1997	Jan 23, 2001	Nippon Telegraph & Telephone Corporation	Method and apparatus for transmission and reception
US6195090	Feb 24, 1998	Feb 27, 2001		Interactive sporting-event monitoring system
US6275990	Sep 15, 1999	Aug 14, 2001	ADC Telecommunications, Inc.	Transport of payload information and control messages on multiple orthogonal carriers spread throughout substantially all of a frequency bandwith
US6282683	Sep 15, 1999	Aug 28, 2001	ADC Telecommunications, Inc.	Communication system with multicarrier telephony transport
US6292651	Jul 23, 1997	Sep 18, 2001	ADC Telecommunications, Inc.	Communication system with multicarrier transport distribution network between a head end terminal and remote units
US6330241	Sep 15, 1999	Dec 11, 2001	ADC Telecommunications, Inc.	Multi-point to point communication system with remote unit burst identification
US6334219	Jun 28, 1996	Dec 25, 2001	ADC Telecommunications Inc.	Channel selection for a hybrid fiber coax network
US6366585	Sep 15, 1999	Apr 2, 2002	ADC Telecommunications, Inc.	Distributed control in a communication system
US6415133	Sep 16, 1999	Jul 2, 2002	ADC Telecommunications, Inc.	Acquisition and tracking in communication system with multicarrier telephony transport
US6418558	Jul 23, 1997	Jul 9, 2002	ADC Telecommunications, Inc.	Hybrid fiber/coax video and telephony communication
US6467092	Sep 16, 1999	Oct 15, 2002	ADC Telecommunications Inc.	Method for adjusting power in a communication system with multicarrier telephony transport
US6477354	Sep 15, 1999	Nov 5, 2002	ADC Telecommunications, Inc.	Communication system transmitting modulated orthogonal carries with service units that scan spectrum to identify assigned band
US6487405	Sep 15, 1999	Nov 26, 2002	ADC Telecommunications, Inc.	Communication system with multicarrier telephony transport for controlling a plurality of service units
US6496982	Aug 18, 1998	Dec 17, 2002	Telefonaktiebolaget LM Ericsson (publ)	Device and method relating to cable TV networks
US6510133	Jan 21, 1999	Jan 21, 2003	Matsushita Electric Industrial Co., Ltd.	Multi-carrier transmission method and data transmitter
US6510229	Sep 16, 1999	Jan 21, 2003	ADC Telecommunications, Inc.	Communication system with multicarrier telephony transport
US6522626	Mar 30, 1999	Feb 18, 2003	Nortel Networks Limited	Power line communications system and method of operation thereof
US6523147	Nov 11, 1999	Feb 18, 2003	Ibiquity Digital Corporation	Method and apparatus for forward error correction coding for an AM in-band on-channel digital audio broadcasting system
US6539063	Feb 18, 1999	Mar 25, 2003	Ibiquity Digital Corporation	System and method for recovering symbol timing offset and carrier frequency error in an OFDM digital audio broadcast system
US6549544	Nov 10, 1999	Apr 15, 2003	Ibiquity Digital Corporation	Method and apparatus for transmission and reception of FM in-band on-channel digital audio broadcasting
US6594322	Sep 15, 1999	Jul 15, 2003	ADC Telecommunications, Inc.	Method of distributed loop control for a multicarrier telephony transport
US6608835	Jan 11, 2002	Aug 19, 2003	ADC Telecommunications, Inc.	Communication system with multicarrier telephony transport
US6625112	Mar 11, 1999	Sep 23, 2003	STMicroelectronics N.V.	Synchronization
US6710811	Feb 16, 2001	Mar 23, 2004	Thomson Licensing S.A.	Data processing device
US6714511	Dec 16, 1999	Mar 30, 2004	Matsushita Electric Industrial Co., Ltd.	OFDM transmission/reception apparatus having a guard interval length changing function
US6788349	Apr 12, 2001	Sep 7, 2004	Her Majesty of Queen in right of Canada, as respresented by the Minister of Industry	Method and system for broadcasting a digital data signal within an analog TV signal using Orthogonal Frequency Division Multiplexing
US6982948	Jan 15, 2003	Jan 3, 2006	iBiquity Digital Corporation	Method and apparatus for transmission and reception of FM in-band on-channel digital audio broadcasting
US7071994	Jul 19, 2001	Jul 4, 2006	Telisar Corporation	System and method for nondisruptively embedding an OFDM modulated data signal into a composite video signal
US7133456	Jul 24, 2002	Nov 7, 2006		Modulation and demodulation format selectable system
US7146008	Jun 16, 2000	Dec 5, 2006	Intel California	Conditional access television sound
US7310522	Jan 11, 2002	Dec 18, 2007	ADC Telecommunications, Inc.	Systems for synchronous multipoint-to-point orthogonal frequency division multiplexing communication
US7385916	Jul 18, 2007	Jun 10, 2008	ADC Telecommunications Inc.	System for multiple use subchannels
US7391711	May 11, 2007	Jun 24, 2008	ADC Telecommunications Inc.	Method and system for adaptive modulation
US7391712	Jul 12, 2007	Jun 24, 2008	ADC Telecommunications Inc.	Method and system for forward-looking tone allocation
US7394753	Jun 25, 2007	Jul 1, 2008	ADC Telecommunications Inc.	Training premable in multipoint-to-point communication using orthogonal frequency division multiplexing
US7400572	Oct 24, 2007	Jul 15, 2008	ADC Telecommunications Inc.	System and method for contention based tones in a multipoint-to-point orthogonal frequency division multiplexing system
US7403471	Feb 9, 2004	Jul 22, 2008	Matsushita Electric Industrial Co., Ltd.	Method and apparatus for setting a guard interval in an OFDM communication
US7408873	Oct 26, 2007	Aug 5, 2008	ADC Telecommunications Inc.	System and method for round trip delay adjustment in a multipoint-to-point orthogonal frequency division multiplexing system
US7414960	Jul 20, 2007	Aug 19, 2008	ADC Telecommunications Inc.	Multiuse subcarriers in multipoint-to-point communication using orthogonal frequency division multiplexing
US7414961	Oct 23, 2007	Aug 19, 2008	ADC Telecommunications Inc.	System and method for multiframe alignment in a multipoint-to-point orthogonal frequency division multiplexing system
US7417944	Jun 14, 2007	Aug 26, 2008	ADC Telecommunications Inc.	Method for orderwire modulation
US7420913	May 1, 2007	Sep 2, 2008	ADC Telecommunications Inc.	Method for tone hopping in a multipoint-to-point orthogonal frequency division multiplexing communication system
US7420914	Sep 13, 2007	Sep 2, 2008	ADC Telecommunications Inc.	Synchronization techniques in multipoint-to-point communication using orthogonal frequency division multiplexing
US7426177	Mar 16, 2007	Sep 16, 2008	ADC Telecommunications Inc.	Round trip delay adjustment in multipoint-to-point communication using orthogonal frequency division multiplexing
US7436812	Jun 14, 2007	Oct 14, 2008	ADC Telecommunications Inc.	System for oderwire modulation
US7440391	Apr 18, 2007	Oct 21, 2008	ADC Telecommunications Inc.	Method and system for dynamic bandwidth allocation
US7443784	Jul 12, 2007	Oct 28, 2008	ADC Telecommunications Inc.	Methods and systems for tone hopping
US7480236	May 10, 2007	Jan 20, 2009	ADC Telecommunications Inc.	Multipoint-to-point communication using orthgonal frequency division multiplexing and identification codes
US7489623	Jun 14, 2007	Feb 10, 2009	ADC Telecommunications Inc.	Control modulation in multipoint-to-point communication using orthogonal frequency division multiplexing
US7489624	Jul 5, 2007	Feb 10, 2009	ADC Telecommunications Inc.	Scanning by remotes in multipoint-to-point communication using orthogonal frequency division multiplexing
US7492791	Mar 15, 2007	Feb 17, 2009	ADC Telecommunications, Inc.	Ranging and round trip delay timing adjustment in a multi-point to point bidirectional communication system
US7529315	Oct 1, 2003	May 5, 2009	Panasonic Corporation	Multi-carrier transmitting apparatus and multi-carrier transmitting method
US7532566	May 10, 2007	May 12, 2009	ADC Telecommunications, Inc.	Use of identifier of remote unit for downstream signals
US7535822	May 30, 2006	May 19, 2009	ADC Telecommunications, Inc.	Synchronization of remote units for a communication network
US7539126	Mar 15, 2007	May 26, 2009	ADC Telecommunications, Inc.	Ranging and round trip delay timing adjustment in a multi-point to point bidirectional communication system
US7548508	Oct 26, 2007	Jun 16, 2009	ADC Telecommunications, Inc.	System and method for contention based tones in a multipoint-to-point orthogonal frequency division multiplexing system
US7555054	May 22, 2008	Jun 30, 2009	Wi-LAN, Inc.	Methods and systems for transmission of multiple modulated signals over wireless networks
US7580347	Apr 18, 2007	Aug 25, 2009	ADC Telecommunications, Inc.	Synchronization of remote units using multiple adjustments
US7596081	Jun 25, 2007	Sep 29, 2009	ADC Telecommunications, Inc.	Method and system for training sequences
US7606138	Sep 29, 2004	Oct 20, 2009	Her Majesty the Queen in right of Canada, as represented by the Minister of Industry, through the Communications Research Centre Canada	Multi-symbol encapsulated OFDM system
US7623440	May 9, 2007	Nov 24, 2009	ADC Telecommunications, Inc.	Method and system for adaptive modulation
US7672219	Feb 6, 2007	Mar 2, 2010	ADC Telecommunications, Inc.	Multipoint-to-point communication using orthogonal frequency division multiplexing
US7675843	Feb 7, 2007	Mar 9, 2010	ADC Telecommunications, Inc.	Multipoint-to-point communication using orthogonal frequency division multiplexing
US7697453	Nov 17, 2008	Apr 13, 2010	ADC Telecommunications, Inc.	Synchronization techniques in multipoint-to-point communication using orthogonal frequency division multiplexing
US7706349	Nov 17, 2008	Apr 27, 2010	ADC Telecommunications, Inc.	Methods and systems for selecting modulation in an orthogonal frequency division multiplexing system
US7756060	Nov 17, 2008	Jul 13, 2010	ADC Telecommunications, Inc.	Tone allocation in multipoint-to-point communication using orthogonal frequency division multiplexing
US7773537	Nov 17, 2008	Aug 10, 2010	ADC Telecommunications, Inc.	Ranging and round trip delay timing adjustment in a multi-point to point bidirectional communication system
US7827581	Feb 28, 2001	Nov 2, 2010	BE Labs, Inc.	Wireless multimedia system
US7872985	Nov 17, 2008	Jan 18, 2011	ADC DSL Systems, Inc.	System for multi-frame alignment
US7876716	Apr 16, 2002	Jan 25, 2011	Panasonic Corporation	Base station apparatus and radio communication method
US7881180	Oct 29, 2007	Feb 1, 2011	ADC Telecommunications, Inc.	Systems and method for orthogonal frequency divisional multiplexing
US7881181	Oct 29, 2007	Feb 1, 2011	ADC Telecommunications, Inc.	Systems and method for orthogonal frequency divisional multiplexing
US7912138	Feb 26, 2007	Mar 22, 2011	ADC Telecommunications, Inc.	Timing and symbol alignment in multipoint-to-point communication using orthogonal frequency division multiplexing
US7936662	Oct 30, 2007	May 3, 2011	ADC Telecommunications, Inc.	Ranging and round trip delay timing adjustment in a multi-point to point bidirectional communication system
US7957265	Oct 29, 2007	Jun 7, 2011	ADC Telecommunications, Inc.	Systems and method for orthogonal frequency divisional multiplexing
US7961815	Feb 6, 2009	Jun 14, 2011	Wi-LAN, Inc.	Methods and systems for transmission of multiple modulated signals over wireless networks
US7983141	Feb 26, 2007	Jul 19, 2011		Synchronized multipoint-to-point communication using orthogonal frequency division
US7995454	Oct 29, 2007	Aug 9, 2011	HTC Corporation	Systems and method for orthogonal frequency divisional multiplexing
US8009782	Aug 14, 2008	Aug 30, 2011	Nokia Siemens Networks Oy	Downscaling system bandwidth
US8089853	Oct 29, 2007	Jan 3, 2012	HTC Corporation	Systems and method for orthogonal frequency divisional multiplexing
US8102831	Nov 25, 2002	Jan 24, 2012	Panasonic Corporation	Radio transmitting apparatus and method for transmitting OFDM signals from different antennas according to the degree of multiplexing
US8107576	Aug 11, 2005	Jan 31, 2012	Realtek Semiconductor Corp.	Synchronization method and related apparatus of an OFDM digital communication system
US8174956	Oct 29, 2007	May 8, 2012	HTC Corporation	Systems and method for orthogonal frequency divisional multiplexing
US8199632	Oct 29, 2007	Jun 12, 2012	HTC Corporation	Systems and method for orthogonal frequency divisional multiplexing
US8213398	Aug 26, 2009	Jul 3, 2012	HTC Corporation	Method for multiple use subchannels
US8213399	Sep 28, 2009	Jul 3, 2012	HTC Corporation	System for multiple use subchannels
USRE41771	Sep 29, 2009	Sep 28, 2010	ADC Telecommunications, Inc.	System for multiple use subchannels
USRE42236	Oct 9, 2009	Mar 22, 2011	ADC Telecommunications, Inc.	Multiuse subcarriers in multipoint-to-point communication using orthogonal frequency division multiplexing

Claims

1. A system for the transmission of an initial data block in a television signal, said system comprising:

(a) first conversion means for converting said initial data block to a transformed data block by applying an orthogonal frequency division multiplexing technique to said initial data block;

(b) means for inserting said transformed data block into a horizontal line structure of said television signal;

(d) second conversion means for converting said transformed data block back to said initial data block by applying an inverse transform of said orthogonal frequency division multiplexing technique to said transformed data block.

2. The system of claim 1, wherein said first conversion means uses a fourier transform to convert said initial data block to said transformed data block.

3. A system for transmitting an initial data block over a television channel, said system comprising:

(a) first conversion means located at a transmitting end of said television channel for converting said initial data block to a transformed data block by applying an orthogonal frequency division multiplexing technique to said initial data block;

(b) means for inserting said transformed data block into a vertical blanking interval of a television signal to be transmitted over said television channel;

(c) data extraction means located at a receiving end for extracting said transformed data block from said vertical blanking interval of said television signal; and

(d) second conversion means for converting said transformed data block to said initial data block by applying an inverse transform of said orthogonal frequency division multiplexing technique to said transformed data block.

4. The system of claim 3, wherein said first conversion means uses a discrete fourier transform to convert said initial data block to said transformed data block.

5. The system of claim 4, wherein said second conversion means uses the inverse of said discrete fourier transform to convert said transformed data block to said initial data block.

6. The system of claim 3, wherein said data extraction means employs a clock signal synchronized with a chroma burst signal of a television receiver located at said receiving end which receives said television signal.

7. The system of claim 3, including means for generating a guard interval by prepending a slice of data copied from one end of said transformed data block to an opposite end of said transformed data block.

8. The system of claim 7, wherein the length of said guard interval is determined by the transmission characteristics of said television channel.

9. The system of claim 3, wherein said data block is inserted into the active picture.

10. The system of claim 3, further including:

(a) error coding means for applying an error detecting/correcting code to said initial data block before transmission thereof; and

(b) means for employing said error detecting/correcting code to detect and correct errors in said initial data block which has been converted by said second conversion means.

11. The system of claim 10, wherein said error coding means uses an error coding scheme selected from the group consisting of Reed-Solomon coding, Hamming coding, and convolutional coding.

12. A system for transmitting an initial data block over a television channel, said system comprising:

(a) means for inserting orthogonally transformed frequency multiplexed data into a vertical blanking interval of a television signal for transmission over said television channel;

(b) means located at a receiving end of said television channel for extracting said transformed data from said vertical blanking interval of said television signal; and

(c) second conversion means for converting said transformed data to said initial data block by inversely transforming said orthogonally transformed frequency multiplexed data.

13. A system for transmitting an initial data block over a television channel, said system comprising:

(b) means for generating a guard interval by prepending a slice of data copied from one end of said transformed data block to an opposite end of said transformed data block;

(c) means for inserting said guard interval and said transformed data block into a vertical blanking interval of a television signal to be transmitted over said television channel;

(d) means located at a receiving end of said television channel for extracting said transformed data block from said vertical blanking interval of said television signal;

(e) second conversion means for converting said transformed data block to said initial data block by applying an inverse transform of said orthogonal frequency division multiplexing technique to said transformed data block; and

(f) means for utilizing said guard interval to eliminate the effects of multipath interference from said television signal.

14. The system of claim 13, wherein said first conversion means uses a discrete fourier transform to convert said initial data block to said transformed data block.

15. A system for recording an initial data block in the horizontal line structure of a television signal, said system comprising:

(a) first conversion means for converting said initial data block to a transformed data block by applying an orthogonal frequency division multiplexing technique to said initial data block;

(b) means for storing said transformed data block into a horizontal line structure of said television signal;

(d) means for extracting said transformed data block from said horizontal line structure of said television signal stored in said recording means; and

16. A method for transmitting an initial data block over a television channel, said method comprising the steps of:

(a) converting said initial data block to a transformed data block by applying an orthogonal frequency division multiplexing technique to said initial data block;

(b) inserting said transformed data block into a horizontal line structure of a television signal to be transmitted over said television channel;

(d) converting said transformed data block to said initial data block by applying an inverse transform of said orthogonal frequency division multiplexing technique to said transformed data block.

17. The method of claim 16, wherein said horizontal line structure is a vertical blanking interval.

18. The method of claim 16, including the step of prepending to said transformed data block a guard interval comprising a slice of data from an end of said transformed data block.

19. The method of claim 16, wherein said first converting step includes using a discrete fourier transform to convert said initial data block to said transformed data block.

20. The method of claim 16, wherein said step of extracting is synchronized with a chroma burst signal of a television receiver which receives said television signal.

21. A method for recording an initial data block in the horizontal line structure of a television signal, said method comprising the steps of:

(a) converting said initial data block to a transformed data block by applying an orthogonal frequency division multiplexing technique to said initial data block;

(b) storing said transformed data block into a horizontal line structure of said television signal; and

Drawings

Patents

System for transmission of digital data using orthogonal frequency division ...

Citations

Referenced by

Claims

Drawings