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Description Punctured convolutional code r = 8/9
Article Title: Performance evaluation of a QoS‐aware error control scheme for multiple‐WBAN environment
Publication Title: IEEJ Transactions on Electrical and Electronic Engineering -
Description Energy efficiency performance as a function of the allowed delay. The number of other WBANs is 5 and the modulation is DQPSK. (a) Es/N0 = 8 dB. (b) Es/N0 = 12 dB
Article Title: Performance evaluation of a QoS‐aware error control scheme for multiple‐WBAN environment
Publication Title: IEEJ Transactions on Electrical and Electronic Engineering -
Description Flowchart of the proposed ARQ protocol
Article Title: Performance evaluation of a QoS‐aware error control scheme for multiple‐WBAN environment
Publication Title: IEEJ Transactions on Electrical and Electronic Engineering -
Description Energy efficiency performance as a function of an allowed delay. The number of other WBANs is 5 and the modulation is DBPSK. (a) Es/N0 = 5 dB. (b) Es/N0 = 8 dB
Article Title: Performance evaluation of a QoS‐aware error control scheme for multiple‐WBAN environment
Publication Title: IEEJ Transactions on Electrical and Electronic Engineering -
Description RBER performance as a function of an allowed delay. The number of other WBANs is 5 and the modulation is DQPSK. (a) Es/N0 = 8 dB. (b) Es/N0 = 12 dB
Article Title: Performance evaluation of a QoS‐aware error control scheme for multiple‐WBAN environment
Publication Title: IEEJ Transactions on Electrical and Electronic Engineering -
Description Mapping of information bits onto ϕm for DBPSK
Article Title: Performance evaluation of a QoS‐aware error control scheme for multiple‐WBAN environment
Publication Title: IEEJ Transactions on Electrical and Electronic Engineering -
Description Delay time as a function of the allowed delay. The number of other WBANs is 5 and the modulation is DBPSK. (a) Es/N0 = 5 dB. (b) Es/N0 = 8 dB
Article Title: Performance evaluation of a QoS‐aware error control scheme for multiple‐WBAN environment
Publication Title: IEEJ Transactions on Electrical and Electronic Engineering -
Description Characteristics of different data types
Article Title: Performance evaluation of a QoS‐aware error control scheme for multiple‐WBAN environment
Publication Title: IEEJ Transactions on Electrical and Electronic Engineering -
Description System concept for a single WBAN
Article Title: Performance evaluation of a QoS‐aware error control scheme for multiple‐WBAN environment
Publication Title: IEEJ Transactions on Electrical and Electronic Engineering -
Description Simulation parameters
Article Title: Performance evaluation of a QoS‐aware error control scheme for multiple‐WBAN environment
Publication Title: IEEJ Transactions on Electrical and Electronic Engineering -
Description Energy efficiency performance as a function of Es/N0. The number of other WBANs is 5. (a) DBPSK modulation. (b) DQPSK modulation
Article Title: Performance evaluation of a QoS‐aware error control scheme for multiple‐WBAN environment
Publication Title: IEEJ Transactions on Electrical and Electronic Engineering -
Description Energy efficiency performance as a function of the number of other WBANs. (a) DBPSK modulation Es/N0 = 5 dB. (b) DQPSK modulation Es/N0 = 8 dB
Article Title: Performance evaluation of a QoS‐aware error control scheme for multiple‐WBAN environment
Publication Title: IEEJ Transactions on Electrical and Electronic Engineering -
Description Average difference in performance as a function of Es/N0 between Cases 1 and 2. The number of other WBANs is 5
Article Title: Performance evaluation of a QoS‐aware error control scheme for multiple‐WBAN environment
Publication Title: IEEJ Transactions on Electrical and Electronic Engineering -
Description UWB PHY frame structure
Article Title: Performance evaluation of a QoS‐aware error control scheme for multiple‐WBAN environment
Publication Title: IEEJ Transactions on Electrical and Electronic Engineering -
Description RBER performance as a function of the allowed delay. The number of other WBANs is 5 and the modulation is DBPSK. (a) Es/N0 = 5 dB. (b) Es/N0 = 8 dB
Article Title: Performance evaluation of a QoS‐aware error control scheme for multiple‐WBAN environment
Publication Title: IEEJ Transactions on Electrical and Electronic Engineering -
Description Average difference in performance as a function of an allowed delay between Cases 1 and 2 (the number of other WBANs is 5 and the modulation is DBPSK)
Article Title: Performance evaluation of a QoS‐aware error control scheme for multiple‐WBAN environment
Publication Title: IEEJ Transactions on Electrical and Electronic Engineering -
Description RBER performance as a function of Es/N0. The number of other WBANs is 5. (a) DBPSK modulation. (b) DQPSK modulation
Article Title: Performance evaluation of a QoS‐aware error control scheme for multiple‐WBAN environment
Publication Title: IEEJ Transactions on Electrical and Electronic Engineering -
Description Average difference in performance as a function of an allowed delay between Cases 1 and 2 (the number of other WBANs is 5 and the modulation is DQPSK)
Article Title: Performance evaluation of a QoS‐aware error control scheme for multiple‐WBAN environment
Publication Title: IEEJ Transactions on Electrical and Electronic Engineering -
Description Average difference in delay time as a function of an allowed delay between Cases 1 and 2 (the number of other WBANs is 5 and the modulation is DBPSK)
Article Title: Performance evaluation of a QoS‐aware error control scheme for multiple‐WBAN environment
Publication Title: IEEJ Transactions on Electrical and Electronic Engineering -
Description RBER performance as a function of the number of other WBANs. (a) DBPSK modulation Es/N0 = 5 dB. (b) DQPSK modulation Es/N0 = 8 dB
Article Title: Performance evaluation of a QoS‐aware error control scheme for multiple‐WBAN environment
Publication Title: IEEJ Transactions on Electrical and Electronic Engineering -
Description Two types of cases in computer simulations. (1) and (2) present Case 1 (general case) and Case 2 (worst case) , respectively
Article Title: Performance evaluation of a QoS‐aware error control scheme for multiple‐WBAN environment
Publication Title: IEEJ Transactions on Electrical and Electronic Engineering -
Description Method of reconstructing decomposable codes r = 8/9–1/2
Article Title: Performance evaluation of a QoS‐aware error control scheme for multiple‐WBAN environment
Publication Title: IEEJ Transactions on Electrical and Electronic Engineering