Apparatus and method for efficiently distributing packet data channel in a mobile communication system for high rate packet transmission

Abstract

An apparatus and method for efficiently distributing energy to a packet data channel. A turbo encoder generates a sequence of systematic symbols and a sequence of parity symbols by encoding an information bit stream. An interleaver interleaves the systematic symbol sequence and the parity symbol sequence separately and serially concatenates the interleaved systematic symbol sequence and the interleaved parity symbol sequence. An energy distributor rearranges the concatenated symbols so that the systematic symbols are disposed in a high energy-having portion of a predetermined transmission period when transmission energy varies for the transmission period. A modulator modulates the rearranged symbols.

SEP Database Augmented SEP Database

Explicitly Disclosed

Patent Type

Technology	Declaration Information			Specification Information				Explicitly Disclosed	Patent Type
Technology	Declaration Date	Declaration Reference	Declaring Company	Specification Number				Explicitly Disclosed	Patent Type
3G	03/12/2009	ISLD-200912-009	SAMSUNG	S1 TS Number: TS 125 212 Version No: Illustrative part: ---- Release: + -				Yes	Basis Patent

Specification Information

Spec Number

Version Number

Section Number

Specification Information

Spec Number

Version Number

Section Number

Technologies

2G 3G 4G 5G

Family Information

All Granted Patents In Patent Family :	----
All Pending Patents In Patent Family :	----

SEP Database Augmented SEP Database

Explicitly Disclosed

Patent Type

Publication No	Technology	Declaration Information			Specification Information	Explicitly Disclosed	Patent Type
Publication No	Technology	Declaration Date	Declaration Reference	Declaring Company	Specification Number	Explicitly Disclosed	Patent Type
US2002141433A1	3G	03/12/2009	ISLD-200912-009	SAMSUNG	S1 TS Number: TS 125 212 Version No: ---- Section No: ---- Release : ---- + -	Yes	Basis Patent
KR100464360B1	3G	03/12/2009	ISLD-200912-009	SAMSUNG	S1 TS Number: TS 125 212 Version No: ---- Section No: ---- Release : ---- + -	No	Family Member
KR20020077149A	3G	03/12/2009	ISLD-200912-009	SAMSUNG	S1 TS Number: TS 125 212 Version No: ---- Section No: ---- Release : ---- + -	No	Family Member
US2007002936A1	3G	03/12/2009	ISLD-200912-009	SAMSUNG	S1 TS Number: TS 125 212 Version No: ---- Section No: ---- Release : ---- + -	No	Family Member
US7302008B2	3G	03/12/2009	ISLD-200912-009	SAMSUNG	S1 TS Number: TS 125 212 Version No: ---- Section No: ---- Release : ---- + -	No	Family Member

Publication No	Technology	Declaration Information			Specification Information				Explicitly Disclosed	Patent Type	Status	National Phase Entries
Publication No	Technology	Declaration Date	Declaration Reference	Declaring Company	Specification Information				Explicitly Disclosed	Patent Type	Status	National Phase Entries
-----	-----	-----	-----	-----	S1 TS Number: ----- Version No: ----- Section No:----- Release:----- + -				-----	-----	-----	-----

Technologies

Signal Processing

Product

Not Available

Use Cases

Wireless communication

Services

Not Available

Claim

1. An apparatus for transmitting a sequence of systematic symbols and a sequence of parity symbols for a predetermined transmission period in a mobile communication system in which a turbo encoder generates the systematic symbol sequence and the parity symbol sequence by encoding an information bit stream, the apparatus comprising:
an interleaver for interleaving the systematic symbol sequence and the parity symbol sequence, separately and serially concatenating the interleaved systematic symbol sequence and the interleaved parity symbol sequence;
an energy distributor for rearranging the symbols of the concatenated symbol sequence so that the systematic symbols are disposed in a high energy portion of the transmission period when transmission energy varies for the transmission period; and
a modulator for modulating the rearranged symbols.', 'an interleaver for interleaving the systematic symbol sequence and the parity symbol sequence, separately and serially concatenating the interleaved systematic symbol sequence and the interleaved parity symbol sequence;', 'an energy distributor for rearranging the symbols of the concatenated symbol sequence so that the systematic symbols are disposed in a high energy portion of the transmission period when transmission energy varies for the transmission period; and', 'a modulator for modulating the rearranged symbols.

2. The apparatus of claim 1, further comprising:
a sequence repeater for repeating the concatenated symbol sequence predetermined times according to a given repetition factor; and
a puncturer for puncturing a predetermined number of symbols from the repeated symbols for data rate matching and outputting the punctured symbol sequence to the energy distributor.', 'a sequence repeater for repeating the concatenated symbol sequence predetermined times according to a given repetition factor; and', 'a puncturer for puncturing a predetermined number of symbols from the repeated symbols for data rate matching and outputting the punctured symbol sequence to the energy distributor.

3. The apparatus of claim 1, further comprising a puncturer for puncturing a predetermined number of symbols from the concatenated symbols for data rate matching and outputting the punctured symbol sequence to the energy distributor.

4. The apparatus of claim 1, wherein if the transmission energy is higher in a second part than in first part of the transmission period, the energy distributor outputs the concatenated symbols in a reverse order of input to dispose the systematic symbols in the second part of the transmission period.

5. The apparatus of claim 1, wherein if the transmission energy is higher in a second part than in a first part of the transmission period, the energy distributor first outputs the parity symbols from the concatenated symbols and then the remaining systematic symbols to dispose the systematic symbols in the second part of the transmission period.

6. The apparatus of claim 1, further comprising a scrambler for scrambling the systematic symbol sequence and the parity symbol sequence and outputting the scrambled symbols to the interleaver.

7. An apparatus for transmitting a sequence of systematic symbols and a sequence of parity symbols for a predetermined transmission period in a mobile communication system in which a turbo encoder generates the systematic symbol sequence and the parity symbol sequence by encoding an information bit stream, the apparatus comprising:
an interleaver for interleaving the systematic symbol sequence and the parity symbol sequence, separately and serially concatenating the interleaved systematic symbol sequence and the interleaved parity symbol sequence;
a sequence repeater for repeating the concatenated symbol sequence predetermined times according to a given repetition factor;
a puncturer for puncturing a predetermined number of symbols from the repeated symbols for data rate matching;
an energy distributor for outputting the punctured symbols in a reverse order of input so that the systematic symbols are disposed in a second part of the transmission period if transmission energy is higher in the second part than in a first part of the transmission period; and
a modulator for modulating the rearranged symbols.', 'an interleaver for interleaving the systematic symbol sequence and the parity symbol sequence, separately and serially concatenating the interleaved systematic symbol sequence and the interleaved parity symbol sequence;', 'a sequence repeater for repeating the concatenated symbol sequence predetermined times according to a given repetition factor;', 'a puncturer for puncturing a predetermined number of symbols from the repeated symbols for data rate matching;', 'an energy distributor for outputting the punctured symbols in a reverse order of input so that the systematic symbols are disposed in a second part of the transmission period if transmission energy is higher in the second part than in a first part of the transmission period; and', 'a modulator for modulating the rearranged symbols.

8. An apparatus for transmitting a sequence of systematic symbols and a sequence of parity symbols for a predetermined transmission period in a mobile communication system in which a turbo encoder generates the systematic symbol sequence and the parity symbol sequence by encoding an information bit stream, the apparatus comprising:
an interleaver for interleaving the systematic symbol sequence and the parity symbol sequence, separately and serially concatenating the interleaved systematic symbol sequence and the interleaved parity symbol sequence;
a sequence repeater for repeating the concatenated symbol sequence predetermined times according to a given repetition factor;
a puncturer for puncturing a predetermined number of symbols from the repeated symbols for data rate matching;
an energy distributor for first outputting parity symbols from the punctured symbols and then the remaining systematic symbols so that the systematic symbols are disposed in a second part of the transmission period if transmission energy is higher in the second part than in a first part of the transmission period; and
a modulator for modulating the rearranged symbols.', 'an interleaver for interleaving the systematic symbol sequence and the parity symbol sequence, separately and serially concatenating the interleaved systematic symbol sequence and the interleaved parity symbol sequence;', 'a sequence repeater for repeating the concatenated symbol sequence predetermined times according to a given repetition factor;', 'a puncturer for puncturing a predetermined number of symbols from the repeated symbols for data rate matching;', 'an energy distributor for first outputting parity symbols from the punctured symbols and then the remaining systematic symbols so that the systematic symbols are disposed in a second part of the transmission period if transmission energy is higher in the second part than in a first part of the transmission period; and', 'a modulator for modulating the rearranged symbols.

9. A method of transmitting a sequence of systematic symbols and a sequence of parity symbols for a predetermined transmission period in a mobile communication system in which a turbo encoder generates the systematic symbol sequence and the parity symbol sequence by encoding an information bit stream, the method comprising the steps of:
interleaving the systematic symbol sequence and the parity symbol sequence, separately and serially concatenating the interleaved systematic symbol sequence and the interleaved parity symbol sequence;
rearranging the concatenated symbols so that the systematic symbols are disposed in a high energy portion of the transmission period when transmission energy vanes for the transmission period; and
modulating the rearranged symbols.', 'interleaving the systematic symbol sequence and the parity symbol sequence, separately and serially concatenating the interleaved systematic symbol sequence and the interleaved parity symbol sequence;', 'rearranging the concatenated symbols so that the systematic symbols are disposed in a high energy portion of the transmission period when transmission energy vanes for the transmission period; and', 'modulating the rearranged symbols.', '10. The method of claim 9, further comprising the steps of:
repeating the concatenated symbol sequence predetermined times according to a given repetition factor; and
puncturing a predetermined number of symbols from the repeated symbols for data rate matching.', 'repeating the concatenated symbol sequence predetermined times according to a given repetition factor; and', 'puncturing a predetermined number of symbols from the repeated symbols for data rate matching.', '11. The method of claim 9, further comprising the step of puncturing a predetermined number of symbols from the concatenated symbols for data rate matching.', '12. The method of claim 9, wherein if the transmission energy is higher in a second part than in a first part of the transmission period, the concatenated symbols are rearranged in a reverse order to dispose the systematic symbols in the second part of the transmission period in the rearrangement step.', '13. The method of claim 9, wherein if the transmission energy is higher in a second part than in a first part of the transmission period, the parity symbols are first output from the concatenated symbols and then the remaining systematic symbols are output to dispose the systematic symbols in the second part of the transmission period in the rearrangement step.', '14. The method of claim 9, further comprising the step of scrambling the systematic symbol sequence and the parity symbol sequence.', '15. A method of transmitting a sequence of systematic symbols and a sequence of parity symbols for a predetermined transmission period in a mobile communication system in which a turbo encoder generates the systematic symbol sequence and the parity symbol sequence by encoding an information bit stream, the method comprising the steps of:
interleaving the systematic symbol sequence and the parity symbol sequence, separately and serially concatenating the interleaved systematic symbol sequence and the interleaved parity symbol sequence;
repeating the concatenated symbol sequence predetermined times according to a given repetition factor;
puncturing a predetermined number of symbols from the repeated symbols for data rate matching;
outputting the punctured symbols in a reverse order of input so that the systematic symbols are disposed in a second part of the transmission period if transmission energy is higher in the second part than in a first part of the transmission period; and
modulating the rearranged symbols.', 'interleaving the systematic symbol sequence and the parity symbol sequence, separately and serially concatenating the interleaved systematic symbol sequence and the interleaved parity symbol sequence;', 'repeating the concatenated symbol sequence predetermined times according to a given repetition factor;', 'puncturing a predetermined number of symbols from the repeated symbols for data rate matching;', 'outputting the punctured symbols in a reverse order of input so that the systematic symbols are disposed in a second part of the transmission period if transmission energy is higher in the second part than in a first part of the transmission period; and', 'modulating the rearranged symbols.', '16. A method of transmitting a sequence of systematic symbols and a sequence of parity symbols for a predetermined transmission period in a mobile communication system in which a turbo encoder generates the systematic symbol sequence and the parity symbol sequence by encoding an information bit stream, the method comprising the steps of:
interleaving the systematic symbol sequence and the parity symbol sequence, separately and serially concatenating the interleaved systematic symbol sequence and the interleaved parity symbol sequence;
repeating the concatenated symbol sequence predetermined times according to a given repetition factor;
puncturing a predetermined number of symbols from the repeated symbols for data rate matching;
outputting parity symbols first from the punctured symbols and then outputting the remaining systematic symbols so that the systematic symbols are disposed in a second part of the transmission period if transmission energy is higher in the second part than in a first part of the transmission period; and
modulating the rearranged symbols.', 'interleaving the systematic symbol sequence and the parity symbol sequence, separately and serially concatenating the interleaved systematic symbol sequence and the interleaved parity symbol sequence;', 'repeating the concatenated symbol sequence predetermined times according to a given repetition factor;', 'puncturing a predetermined number of symbols from the repeated symbols for data rate matching;', 'outputting parity symbols first from the punctured symbols and then outputting the remaining systematic symbols so that the systematic symbols are disposed in a second part of the transmission period if transmission energy is higher in the second part than in a first part of the transmission period; and', 'modulating the rearranged symbols.']

Associated Portfolios

Licensor Claim Chart

Claim Chart	Technology	Creation Date	Download
Claim charts will soon be available!

Patent claim chart for sale

SUMMARY

Please Place the order to get the claim chart for the patent

ClaimChart-US7180953B2-STO

Patent number:US7180953B2

Claim Chart Type : SEP Claim Chart

Price: 200 €

Add To Cart

Note:

The information in blue was extracted from the third parties (Standard Setting Organisation, Espacenet)

The information in grey was provided by the patent holder

The information in purple was extracted from the FrandAvenue

Explicitly disclosed patent:openly and comprehensibly describes all details of the invention in the patent document.

Implicitly disclosed patent:does not explicitly state certain aspects of the invention, but still allows for these to be inferred from the information provided.

Basis patent:The core patent in a family, outlining the fundamental invention from which related patents or applications originate.

Family member:related patents or applications that share a common priority or original filing.