Academic Thesis

Basic information

Name Arai Shintaro
Belonging department
Occupation name
researchmap researcher code B000232542
researchmap agency Okayama University of Science

Title 

Sequential Maximum Likelihood Decoding Incorporating Reliability Determination for Image Sensor Communication

					

					

						

							

								

									
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Author 

									
								

							

						

						
Zhengqiang Tang, Shintaro Arai, Tomohiro Yendo, Di He, Takaya Yamazato

					

					

						

							

								

									
Summary 

									
								

							

						

						
Visible light communication (VLC), Image sensor communication (ISC), Maximum likelihood decoding (MLD), Sequential maximum likelihood decoding (S-MLD)
In this study, the sequential maximum likelihood decoding (S-MLD) for image sensor based visible light communication, referred to as image sensor communication, is proposed. The conventional system cannot correctly decode degraded captured images. To overcome this problem, S-MLD partitions the LED area on the image into two segments and sequentially creates pseudo-captured images, which imitate all possible LED blinking patterns. This approach is based on MLD for each segment. Moreover, reliability determination is incorporated to improve communication quality. We performed computer simulations and confirmed that S-MLD exhibits superior decoding performance and approximately 90% computational cost reduction compared to the previous MLD.

Sequential Maximum Likelihood Decoding Incorporating Reliability Determination for Image Sensor Communication


					

					

						

							

								

									
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IEICE Communications Express

					

					

						

							

								

									
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IEICE

					

					

						

							

								

									
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9

					

					

						

							

								

									
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8

					

					

						

							

								

									
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365

					

					

						

							

								

									
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370

					

					

						

							

								

									
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2020/08

					

					

						

							

								

									
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English

					

					

						

							

								

									
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