Method System and Terminal for Implementing Upward Frequency Hopping Transmission

Abstract

A method for implementing upward frequency hopping transmission is adopted to the communication system with time slotted frame structure and it comprises: receiving the frequency band and frequency hopping mode allocated by the network side; after implementing the upward transmission on one frequency band allocated in the first predivided time period based on the frequency hopping mode hopping to the other allocated frequency band to implement upward transmission in the predivided second time period. A system and terminal for implementing upward frequency hopping transmission are also provided. By the invention the frequency hopping in a transmission time interval of the alternative frame structure in the Long Term Evolution can be realized and the frequency diversity gain can be acquired.

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Patent Type

Technology	Declaration Information			Specification Information				Explicitly Disclosed	Patent Type
Technology	Declaration Date	Declaration Reference	Declaring Company	Specification Number				Explicitly Disclosed	Patent Type
4G	01/12/2011	ISLD-201111-008	CHINA ACADEMY OF TELECOMM TECH	S1 TS Number: TS 136 211 Version No: Illustrative part: ---- Release: S2 TS Number: TS 136 213 Version No: Illustrative part: ---- Release: +1 -1				Yes	Family Member

Specification Information

Spec Number

Version Number

Section Number

Specification Information

Spec Number

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Section Number

Technologies

2G 3G 4G 5G

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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
WO2008098511A1	4G	01/12/2011	ISLD-201111-008	CHINA ACADEMY OF TELECOMM TECH	S1 TS Number: TS 136 211 Version No: ---- Section No: Release : ---- S2 TS Number: TS 136 213 Version No: ---- Section No: Release : ---- +1 -1	Yes	Basis Patent
CN101242239A	4G	01/12/2011	ISLD-201111-008	CHINA ACADEMY OF TELECOMM TECH	S1 TS Number: TS 136 211 Version No: ---- Section No: Release : ---- S2 TS Number: TS 136 213 Version No: ---- Section No: Release : ---- +1 -1	No	Family Member
CN101242239B	4G	01/12/2011	ISLD-201111-008	CHINA ACADEMY OF TELECOMM TECH	S1 TS Number: TS 136 211 Version No: ---- Section No: Release : ---- S2 TS Number: TS 136 213 Version No: ---- Section No: Release : ---- +1 -1	No	Family Member
EP2124370A1	4G	01/12/2011	ISLD-201111-008	CHINA ACADEMY OF TELECOMM TECH	S1 TS Number: TS 136 211 Version No: ---- Section No: Release : ---- S2 TS Number: TS 136 213 Version No: ---- Section No: Release : ---- +1 -1	Yes	Family Member
JP2010518712A	4G	01/12/2011	ISLD-201111-008	CHINA ACADEMY OF TELECOMM TECH	S1 TS Number: TS 136 211 Version No: ---- Section No: Release : ---- S2 TS Number: TS 136 213 Version No: ---- Section No: Release : ---- +1 -1	No	Family Member
KR20100014960A	4G	01/12/2011	ISLD-201111-008	CHINA ACADEMY OF TELECOMM TECH	S1 TS Number: TS 136 211 Version No: ---- Section No: Release : ---- S2 TS Number: TS 136 213 Version No: ---- Section No: Release : ---- +1 -1	No	Family Member
US2010111007A1	4G	01/12/2011	ISLD-201111-008	CHINA ACADEMY OF TELECOMM TECH	S1 TS Number: TS 136 211 Version No: ---- Section No: Release : ---- S2 TS Number: TS 136 213 Version No: ---- Section No: Release : ---- +1 -1	Yes	Family Member
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JP5258793B2	-----	-----	-----	-----	-----	-----	-----
KR101258872B1	-----	-----	-----	-----	-----	-----	-----

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

Frame structure

Product

Not Available

Use Cases

Wireless communication

Services

Not Available

Claim

1. A method for implementing uplink frequency-hopping transmission, which is applicable to a communication system having a time slot based frame structure, and the frame structure is Alternative Frame Structure in a Long Term Evolution solution, comprising:
dividing in advance, by a User Equipment, a time slot into a first time period and a second time period;
receiving frequency bands and a frequency hopping mode allocated by a network side; and
performing uplink transmission at one of the allocated frequency bands during the first time period and then hopping to another allocated frequency band to perform uplink transmission during the second time period, according to the frequency hopping mode;
wherein dividing the time slot into the first time period and the second time period comprises: grouping the forth Long Block and the part before the forth Long Block within the time slot as the first time period, and grouping the part after the forth Long Block within the time slot as the second time period.', 'dividing in advance, by a User Equipment, a time slot into a first time period and a second time period;', 'receiving frequency bands and a frequency hopping mode allocated by a network side; and', 'performing uplink transmission at one of the allocated frequency bands during the first time period and then hopping to another allocated frequency band to perform uplink transmission during the second time period, according to the frequency hopping mode;', 'wherein dividing the time slot into the first time period and the second time period comprises: grouping the forth Long Block and the part before the forth Long Block within the time slot as the first time period, and grouping the part after the forth Long Block within the time slot as the second time period.

2. The method of claim 1, further comprising:
allocating, by the network side, two frequency bands and the frequency hopping mode for the User Equipment, wherein each of the frequency bands comprises at least one Resource Unit, and when two or more Resource Units are comprised in one frequency band, the Resource Units of the frequency band are continuous in frequency domain; and
notifying the User Equipment about the allocated frequency bands and the frequency hopping mode.', 'allocating, by the network side, two frequency bands and the frequency hopping mode for the User Equipment, wherein each of the frequency bands comprises at least one Resource Unit, and when two or more Resource Units are comprised in one frequency band, the Resource Units of the frequency band are continuous in frequency domain; and', 'notifying the User Equipment about the allocated frequency bands and the frequency hopping mode.

3. The method of claim 2, wherein notifying the User Equipment about the allocated frequency bands comprises:
utilizing a bit information mapping table to indicate the Resource Units contained in the two allocated frequency bands, and notifying the bit information mapping table to the User Equipment.', 'utilizing a bit information mapping table to indicate the Resource Units contained in the two allocated frequency bands, and notifying the bit information mapping table to the User Equipment.

4. The method of claim 2, wherein notifying the User Equipment about the frequency hopping mode comprises:
utilizing a bit of information to indicate the frequency hopping mode from a lower frequency band to a higher frequency band, or from a higher frequency band to a lower frequency band; and
notifying the bit of information to the User Equipment.', 'utilizing a bit of information to indicate the frequency hopping mode from a lower frequency band to a higher frequency band, or from a higher frequency band to a lower frequency band; and', 'notifying the bit of information to the User Equipment.

5. The method of claim 2, wherein notifying the User Equipment about the allocated frequency bands and the frequency hopping mode comprises:
notifying the User Equipment about a starting index and an ending index of the Resource Units in the frequency band used in the first time period, and a starting index and an ending index of the Resource Units in the frequency band used in the second time period, or
notifying the User Equipment about a starting index and the number of the Resource Units of the frequency band used in the first time period, and a starting index and the number of Resource Units of the frequency band used in the second time period.', 'notifying the User Equipment about a starting index and an ending index of the Resource Units in the frequency band used in the first time period, and a starting index and an ending index of the Resource Units in the frequency band used in the second time period, or', 'notifying the User Equipment about a starting index and the number of the Resource Units of the frequency band used in the first time period, and a starting index and the number of Resource Units of the frequency band used in the second time period.

6. The method of claim 1, wherein performing, by the User Equipment, uplink transmission at one of the allocated frequency bands during the first time period and then hopping to another allocated frequency band to perform uplink transmission during the second time period, according to the frequency hopping mode comprises:
transmitting, by the User Equipment, uplink reference symbols of the User Equipment via Short Blocks in idle frequency bands corresponding to the User Equipment during the first and second frequency bands.', 'transmitting, by the User Equipment, uplink reference symbols of the User Equipment via Short Blocks in idle frequency bands corresponding to the User Equipment during the first and second frequency bands.

7. The method of claim 6, wherein transmitting the uplink reference symbols of the User Equipment through the Short Blocks in idle frequency bands corresponding to the User Equipment further comprises:
multiplexing the uplink reference symbols of the User Equipment and uplink reference symbols of another User Equipment over the Short Blocks.', 'multiplexing the uplink reference symbols of the User Equipment and uplink reference symbols of another User Equipment over the Short Blocks.

8. The method of claim 7, wherein the allocated frequency bands are adjacent in the frequency domain.

9. The method of claim 6, wherein the allocated frequency bands are adjacent in the frequency domain

10. A User Equipment for implementing uplink frequency-hopping transmission, which is applicable to a communication system having a time slot based frame structure, and the frame structure is Alternative Frame Structure in a Long Term Evolution solution, comprising a time slot dividing unit, a scheduling information receiving and forwarding unit, and an uplink frequency-hopping transmitting unit, wherein
the time slot dividing unit is adapted to divide in advance a time slot into a first time period and a second time period;
the scheduling information receiving and forwarding unit is adapted to receive and forward the notification of allocated frequency bands and a frequency hopping mode to the uplink frequency-hopping transmitting unit; and
the uplink frequency-hopping transmitting unit is adapted to transmit data at one of the allocated frequency bands during the first time period and then hop to another allocated frequency band to transmit data during the second time period, according to the frequency hopping mode;
wherein the time slot dividing unit is adapted to group the forth Long Block and the part before the forth Long Block within the time slot as the first time period, and group the part after the forth Long Block within the time slot as the second time period.', 'the time slot dividing unit is adapted to divide in advance a time slot into a first time period and a second time period;', 'the scheduling information receiving and forwarding unit is adapted to receive and forward the notification of allocated frequency bands and a frequency hopping mode to the uplink frequency-hopping transmitting unit; and', 'the uplink frequency-hopping transmitting unit is adapted to transmit data at one of the allocated frequency bands during the first time period and then hop to another allocated frequency band to transmit data during the second time period, according to the frequency hopping mode;', 'wherein the time slot dividing unit is adapted to group the forth Long Block and the part before the forth Long Block within the time slot as the first time period, and group the part after the forth Long Block within the time slot as the second time period.11. A system for implementing uplink frequency-hopping transmission, comprising a network side and a User Equipment, the User Equipment comprising a time slot dividing unit, a scheduling information receiving, parsing and forwarding unit, and an uplink frequency-hopping transmitting unit; the network side comprising a frequency band sequently-allocating unit and a scheduling information sending unit, wherein
the frequency band sequently-allocating unit is adapted to allocate two frequency bands in the order of the time periods, each of the allocated frequency bands comprises at least one Resource Unit, and when two or more Resource Units are comprised in the frequency band, the Resource Units are continuous in the frequency domain;
the scheduling information sending unit is adapted to notify the allocated frequency bands to the User Equipment;
the time slot dividing unit is adapted to divide in advance a time slot into a first time period and a second time period;
the scheduling information receiving, parsing and forwarding unit is adapted to receive the notification of the transmitted frequency bands, obtain a frequency hopping mode by parsing the order of the time periods for the two frequency bands, and forward the notification of the allocated frequency bands and the obtained frequency hopping mode to the uplink frequency-hopping transmitting unit; and
the uplink frequency-hopping transmitting unit is adapted to transmit data at one of the allocated frequency bands during the first time period and then hop to another allocated frequency band to transmit data during the second time period, according to the frequency hopping mode;
wherein the time slot dividing unit is adapted to group the forth Long Block and the part before the forth Long Block within the time slot as the first time period, and group the part after the forth Long Block within the time slot as the second period.', 'the frequency band sequently-allocating unit is adapted to allocate two frequency bands in the order of the time periods, each of the allocated frequency bands comprises at least one Resource Unit, and when two or more Resource Units are comprised in the frequency band, the Resource Units are continuous in the frequency domain;', 'the scheduling information sending unit is adapted to notify the allocated frequency bands to the User Equipment;', 'the time slot dividing unit is adapted to divide in advance a time slot into a first time period and a second time period;', 'the scheduling information receiving, parsing and forwarding unit is adapted to receive the notification of the transmitted frequency bands, obtain a frequency hopping mode by parsing the order of the time periods for the two frequency bands, and forward the notification of the allocated frequency bands and the obtained frequency hopping mode to the uplink frequency-hopping transmitting unit; and', 'the uplink frequency-hopping transmitting unit is adapted to transmit data at one of the allocated frequency bands during the first time period and then hop to another allocated frequency band to transmit data during the second time period, according to the frequency hopping mode;', 'wherein the time slot dividing unit is adapted to group the forth Long Block and the part before the forth Long Block within the time slot as the first time period, and group the part after the forth Long Block within the time slot as the second period.']

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