Diseño e implementación de un sistema de comunicación de cámara óptica que utiliza el método de rolling shutter y la modulación por corrimiento de color

Vista sencilla de ítem
dc.contributor.advisorQuintero Quintero, Jesús Maríaspa
dc.contributor.advisorGutierrez Gomez, Juan Felipespa
dc.contributor.authorArdila Chavarro, Maria del Marspa
dc.contributor.researchgroupGrupo de Investigación en Metrología, Iluminación y Radiometría - Matissespa
dc.date.accessioned2023-10-04T19:17:53Z
dc.date.available2023-10-04T19:17:53Z
dc.date.issued2023-09-29
dc.descriptionilustraciones, gráficasspa
dc.description.abstractEl mundo actual está rodeado de comunicaciones inalámbricas cuyo espectro de radiofrecuencias se encuentra congestionado, dando lugar a buscar otro tipo de alternativas como la comunicación por luz visible que permite enviar datos modulando la luz de una luminaria LED, cumpliendo la función de iluminación y transmisión de datos con una misma infraestructura, además de dar la posibilidad de desplegarlos en entornos críticos muy sensibles a las ondas de radio, como aviones y hospitales. Con la llegada y difusión de los teléfonos inteligentes, la mayoría de las personas hoy en día posee un dispositivo con una cámara, capaz de realizar un procesamiento de datos, lo cual hace que las comunicaciones por cámara óptica (como sistemas VLC) se hayan convertido en un área atractiva por investigar. Es así, como este trabajo presenta el diseño y la implementación de un sistema de comunicación de cámara óptica haciendo uso del método de rolling shutter (RS) o persiana enrollable y la modulación CSK, al igual que el desarrollo de una aplicación de Android para la recepción y procesamiento de los datos transmitidos por una luminaria RGB hacia un smartphone sin línea de vista, aplicando segmentación semántica con un modelo híbrido VGG16–XGBoost. Como resultado se obtuvo un SER de 8.2X10^-3, 8.15X10^-2, 1.172X10^-1 para 4, 8 y 16-CSK respectivamente, a una distancia de 21cm con una luminancia de 11,5 cd/m2 y un CCT de 5000K aproximadamente. (Texto tomado de la fuente).spa
dc.description.abstractToday's world is surrounded by wireless communications whose radiofrequency spectrum is congested, giving rise to the search for other alternatives such as visible light communication that allows sending data by modulating the light of an LED luminaire, fulfilling the function of lighting and data transmission with the same infrastructure, in addition to giving the possibility of deploying them in environments such as airplanes and hospitals. With the advent and spread of smartphones, most people today own a device with a camera, capable of performing data processing, which makes optical camera communications (such as VLC systems) an attractive area for research. Thus, this work presents the design and implementation of an optical camera communication system using the rolling shutter (RS) method and CSK modulation, as well as the development of an Android application for the reception and processing of data transmitted by an RGB luminaire to a smartphone without line of sight, applying semantic segmentation with a hybrid model VGG16-XGBoost. As a result, a SER of 8.2X10^-3, 8.15X10^-2, 1.172X10^-1 was obtained for 4, 8 and 16-CSK respectively, at a distance of 21cm with a luminance of 11.5 cd/m2 and a CCT of 5000K approx.eng
dc.description.degreelevelMaestríaspa
dc.description.degreenameMagíster en Ingeniería - Ingeniería Electrónicaspa
dc.description.researchareaComunicaciones ópticas inalámbricasspa
dc.format.extentxvi, 49 páginasspa
dc.format.mimetypeapplication/pdfspa
dc.identifier.instnameUniversidad Nacional de Colombiaspa
dc.identifier.reponameRepositorio Institucional Universidad Nacional de Colombiaspa
dc.identifier.repourlhttps://repositorio.unal.edu.co/spa
dc.identifier.urihttps://repositorio.unal.edu.co/handle/unal/84761
dc.language.isospaspa
dc.publisherUniversidad Nacional de Colombiaspa
dc.publisher.branchUniversidad Nacional de Colombia - Sede Bogotáspa
dc.publisher.facultyFacultad de Ingenieríaspa
dc.publisher.placeBogotá, Colombiaspa
dc.publisher.programBogotá - Ingeniería - Maestría en Ingeniería - Ingeniería Electrónicaspa
dc.relation.referencesZ. Ghassemlooy, M. Uysal, M. A. Khalighi, V. Ribeiro, F. Moll, S. Zvanovec, and A. Belmonte. An Overview of Optical Wireless Communications, pages 1–23. Springer International Publishing, Cham, 2016spa
dc.relation.referencesNirzhar Saha, Md Shareef Ifthekhar, Nam Tuan Le, and Yeong Min Jang. Survey on optical camera communications: challenges and opportunities. IET Optoelectronics, 9(5):172–183, 2015.spa
dc.relation.referencesAlain Richard Ndjiongue, Hendrik C. Ferreira, and Telex M. N. Ngatched. Visible Light Communications (VLC) Technology, pages 1–15. John Wiley Sons, Ltd, 2015.spa
dc.relation.referencesRana Shaaban and Saleh Faruque. A survey of indoor visible light communication power distribution and color shift keying transmission. In 2017 IEEE International Conference on Electro Information Technology (EIT), pages 149–153, 2017.spa
dc.relation.referencesParth H. Pathak, Xiaotao Feng, Pengfei Hu, and Prasant Mohapatra. Visible light communication, networking, and sensing: A survey, potential and challenges. IEEE Communications Surveys Tutorials, 17(4):2047–2077, 2015.spa
dc.relation.referencesMostafa Zaman Chowdhury, Md. Tanvir Hossan, Amirul Islam, and Yeong Min Jang. A comparative survey of optical wireless technologies: Architectures and applications. IEEE Access, 6:9819–9840, 2018.spa
dc.relation.referencesAlexis Duque, Razvan Stanica, Herve Rivano, and Adrien Desportes. Analytical and simulation tools for optical camera communications. Computer Communications, 160:52–62, 2020.spa
dc.relation.referencesTrang Nguyen, Chang Hyun Hong, Nam Tuan Le, and Yeong Min Jang. High-speed asynchronous optical camera communication using led and rolling shutter camera. In 2015 Seventh International Conference on Ubiquitous and Future Networks, pages 214–219, 2015.spa
dc.relation.referencesHui-Yu Lee, Hao-Min Lin, Yu-Lin Wei, Hsin-I Wu, Hsin-Mu Tsai, and Kate Ching-Ju Lin. Rollinglight: Enabling line-of-sight light-to-camera communications. In Proceedings of the 13th Annual International Conference on Mobile Systems, Applications, and Services, MobiSys ’15, page 167–180, New York, NY, USA, 2015. Association for Computing Machinery.spa
dc.relation.referencesVega Pradana Rachim, Jinyoung An, Quan Ngoc Pham, and Wan-Young Chung. Rgb-led-based optical camera communication using multilevel variable pulse position modulation for healthcare applications. Journal of Sensor Science and Technology, 27(1):6–12,2018.spa
dc.relation.referencesHuy Nguyen and Yeong Min Jang. Design and implementation of rolling shutter mimo-ofdm scheme for optical camera communication system. In 2021 International Conference on Information and Communication Technology Convergence (ICTC), pages 798–800, 2021.spa
dc.relation.referencesColorbars: Increasing data rate of led-to-camera communication using color shift keying. Association for Computing Machinery, 2015spa
dc.relation.referencesPengfei Hu, Parth H. Pathak, Huanle Zhang, Zhicheng Yang, and Prasant Mohapatra. High speed led-to-camera communication using color shift keying with flicker mitigation. IEEE Transactions on Mobile Computing, 19(7):1603–1617, 2020.spa
dc.relation.referencesHao-Wei Chen, Shang-Sheng Wen, Xing-Lin Wang, Ming-Zhu Liang, Mu-Yun Li, Qing Chang Li, and Yun Liu. Color-shift keying for optical camera communication using a rolling shutter mode. IEEE Photonics Journal, 11(2):1–8, 2019.spa
dc.relation.referencesQinghui Chen, Hong Wen, Rui Deng, Ming Chen, Qifang Xu, Tiezhu Zong, and Kang Geng. Spaced color shift keying modulation for camera-based visible light communication system using rolling shutter effect. Optics Communications, 449:19–23, 2019spa
dc.relation.referencesYuki Hokazono, Koichi Hasegawa, Yoshiaki Narusue, and Hiroyuki Morikawa. Long-range flicker-free led-to-camera communication using differential color shift keying. In ICC 2019 - 2019 IEEE International Conference on Communications (ICC), pages 1–7,2019spa
dc.relation.referencesRui Deng, Liqiong Liu, Yingjie Shao, and Lian-Kuan Chen. 2d-constellation-assisted csk transmission over occ system under low-level illuminance. In 2019 24th OptoElectronics and Communications Conference (OECC) and 2019 International Conference on Photonics in Switching and Computing (PSC), pages 1–3, 2019spa
dc.relation.referencesPengfei Luo, Zabih Ghassemlooy, Stanislav Zvanovec, Shulan Feng, Philipp Zhang, and Min Zhang. Experimental demonstration of undersampled color-shift keying optical camera communications. In 2017 IEEE/CIC International Conference on Communications in China (ICCC Workshops), pages 1–6, 2017spa
dc.relation.referencesMerdan Durmus, Koen Langendoen, Marco Zuñiga Zamalloa, and Miguel Chavez Tapia. System design of led-to-rolling-shutter-camera communication using color shift keying, 2022spa
dc.relation.referencesLiqiong Liu, Rui Deng, and Lian-Kuan Chen. 47-kbit/s rgb-led-based optical camera communication based on 2d-cnn and xor-based data loss compensation. Opt. Express,27(23):33840–33846, Nov 2019spa
dc.relation.referencesYukito Onodera, Daisuke Hisano, Kazuki Maruta, and Yu Nakayama. First demonstration of 512-color shift keying signal demodulation using neural equalization for optical camera communication. 12 2022spa
dc.relation.referencesYiwei Li, Zabih Ghassemlooy, Xuan Tang, Bangjiang Lin, and Yi Zhang. A vlc smartphone camera based indoor positioning system. IEEE Photonics Technology Letters, 30(13):1171–1174, 2018spa
dc.relation.referencesYe-Sheng Kuo, Pat Pannuto, Ko-Jen Hsiao, and Prabal Dutta. Luxapose: Indoor positioning with mobile phones and visible light. New York, NY, USA, 2014. Association for Computing Machineryspa
dc.relation.referencesSeungwoo Hyun, Yunhyeong Lee, Jungho Lee, MinChul Ju, and Youngil Park. Indoor positioning using optical camera communication pedestrian dead reckoning. In 2015 Seventh International Conference on Ubiquitous and Future Networks, pages 64–65, 2015spa
dc.relation.referencesMd. Faisal Ahmed, Moh. Khalid Hasan, Md. Shahjalal, Md. Morshed Alam, and Yeong Min Jang. Design and implementation of an occ-based real-time heart rate and pulse-oxygen saturation monitoring system. IEEE Access, 8:198740–198747, 2020spa
dc.relation.referencesMd. Osman Ali, Md Morshed Alam, Md. Faisal Ahmed, and Yeong Min Jang. A new smart-meter data monitoring system based on optical camera communication. In 2021 International Conference on Artificial Intelligence in Information and Communication (ICAIIC), pages 477–479, 2021spa
dc.relation.referencesNguyen Cong Hoan, Nguyen Van Hoa, Vu Thanh Luan, and Yeong Min Jang. Design and implementation of a monitoring system using optical camera communication for a smart factory. Applied Sciences, 9(23), 2019spa
dc.relation.referencesShivani Teli, Willy Anugrah Cahyadi, and Yeon Ho Chung. High-speed optical camera v2v communications using selective capture. Photonic Network Communications, 36, 2018spa
dc.relation.referencesVehicle positioning based on optical camera communication in v2i environments. Computers, Materials and Continua, 72, 2022spa
dc.relation.referencesMSM Akram, LGD Aravinda, MKPD Munaweera, GMRI Godaliyadda, and MPB Ekanayake. Camera based visible light communication system for underwater applications. In 2017 IEEE International Conference on Industrial and Information Systems (ICIIS), pages 1–6. IEEE, 2017.spa
dc.relation.referencesMuhammed Akram, Roshan Godaliyadda, and Parakrama Ekanayake. Design and analysis of an optical camera communication system for underwater applications. IET Optoelectronics, 14(1):10–21, 2020spa
dc.relation.referencesMd. Shahjalal, Moh. Khalid Hasan, Mostafa Zaman Chowdhury, and Yeong Min Jang. Future optical camera communication based applications and opportunities for 5g and beyond. In 2019 International Conference on Artificial Intelligence in Information and Communication (ICAIIC), pages 492–495, 2019spa
dc.relation.referencesNasir Saeed, Shuaishuai Guo, Ki-Hong Park, Tareq Y. Al-Naffouri, and Mohamed-Slim Alouini. Optical camera communications: Survey, use cases, challenges, and future trends. Physical Communication, 37:100900, 2019spa
dc.relation.referencesWilly Anugrah Cahyadi, Yeon Ho Chung, Zabih Ghassemlooy, and Navid Bani Hassan. Optical camera communications: Principles, modulations, potential and challenges. Electronics, 9(9), 2020spa
dc.relation.referencesSyed Agha Hassnain Mohsan. Optical camera communications: practical constraints, applications, potential challenges, and future directions. J. Opt. Technol., 88(12):729–741, Dec 2021.spa
dc.relation.referencesDaniel Malacara and SPIE (Society). Color vision and colorimetry : theory and applications. SPIE, 2011spa
dc.relation.referencesJohn Dakin and Brown Robert G W. Handbook of Optoelectronics. CRC Press, 2017spa
dc.relation.referencesZabih Ghassemlooy, Luis Nero Alves, Stanislav Zvanovec, and Mohammad-Ali Khalighi. Visible light communications: Theory and applications. CRC Press, 2017spa
dc.relation.referencesTrang Nguyen, Amirul Islam, Tanvir Hossan, and Yeong Min Jang. Current status and performance analysis of optical camera communication technologies for 5g networks. IEEE Access, 5:4574–4594, 2017.spa
dc.relation.referencesTrang Nguyen, Amirul Islam, Takaya Yamazato, and Yeong Min Jang. Technical issues on ieee 802.15.7m image sensor communication standardization. IEEE Communications Magazine, 56(2):213–218, 2018.spa
dc.relation.referencesIEEE standard for local and metropolitan area networks–part 15.7: Short-range wireless optical communication using visible light. IEEE Std 802.15.7-2011, pages 1–309, 2011.spa
dc.relation.referencesKe Dong, Xizheng Ke, and Hui Li. Camera-based channel modeling and symbol error rate analysis of csk modulation for outdoor occ systems. IEEE Access, 10:50254–50264, 2022spa
dc.relation.referencesJuan Felipe Gutierrez Gomez. Diseño e implementación de dos sistemas de comunicación con luz visible mediante las modulaciones ook y csk para análisis de desempeño de transmisión de datos e iluminación, 2018spa
dc.relation.referencesCristo Jurado-Verdu, Victor Guerra, Jose Rabadan, Rafael Perez-Jimenez, and Patricia Chavez-Burbano. Rgb synchronous vlc modulation scheme for occ. In 2018 11th International Symposium on Communication Systems, Networks Digital Signal Processing (CSNDSP), pages 1–6, 2018spa
dc.relation.referencesEric Monteiro and Steve Hranilovic. Design and implementation of color-shift keying for visible light communications. Journal of Lightwave Technology, 32, 2014spa
dc.relation.referencesRavinder Singh. Physical layer techniques for indoor wireless visible light communications. University of Sheffield, 2015spa
dc.relation.referencesHyeon-Woo Park, Ji-Won Choi, Ji-Young Choi, Kyung-Kwang Joo, and Na-Ri Kim. Investigation of the huendash;wavelength response of a cmos rgb-based image sensor. Sensors, 22(23), 2022spa
dc.relation.referencesChristos Danakis, Mostafa Afgani, Gordon Povey, Ian Underwood, and Harald Haas. Using a cmos camera sensor for visible light communication. In 2012 IEEE Globecom Workshops, pages 1244–1248, 2012spa
dc.relation.referencesV. Matus, V. Guerra, C. Jurado-Verdu, J. Rabadan, and R. Perez-Jimenez. Simulation of rolling shutter acquisition in optical camera communications. In 2019 15th International Conference on Telecommunications (ConTEL), pages 1–5, 2019spa
dc.relation.referencesGoogle. Platform architecture: android developers, May 2023spa
dc.relation.referencesShivani Rajendra Teli, Stanislav Zvanovec, and Zabih Ghassemlooy. The first tests of smartphone camera exposure effect on optical camera communication links. In 2019 15th International Conference on Telecommunications (ConTEL), pages 1–6, 2019.spa
dc.relation.referencesNour Abura’ed, Harish Bhaskar, and Faisal Khan. High-iso image de-noising using burst filtering. In 2016 IEEE 59th International Midwest Symposium on Circuits and Systems (MWSCAS), pages 1–4, 2016spa
dc.relation.referencesGermán Darío Corzo Ussa. Segmentación semántica para imágenes de paisajes tropicales, 2017.spa
dc.relation.referencesFlores Videla and Castro Ojeda. Repositorio académico - Universidad de Chile, Jan 1970spa
dc.relation.referencesShagun Sharma, Kalpna Guleria, Sunita Tiwari, and Sushil Kumar. A deep learning based convolutional neural network model with vgg16 feature extractor for the detection of alzheimer disease using mri scans. Measurement: Sensors, 24:100506, 2022.spa
dc.relation.referencesWilson Bakasa and Serestina Viriri. Vgg16 feature extractor with extreme gradient boost classifier for pancreas cancer prediction. Journal of Imaging, 9(7), 2023spa
dc.relation.referencesTianqi Chen and Carlos Guestrin. Xgboost. pages 785–794. ACM, 8 2016spa
dc.relation.referencesA.N.V.K Swarupa, V.Hema Sree, S. Nookambika, Y. Kiran Sai Kishore, and U. Ravi Teja. Disease prediction: Smart disease prediction system using random forest algorithm. In 2021 IEEE International Conference on Intelligent Systems, Smart and Green Technologies (ICISSGT), pages 48–51, 2021spa
dc.relation.referencesRustem Dautov, Erik Johannes Husom, Fotis Gonidis, Spyridon Papatzelos, and Nikolaos Malamas. Bridging the gap between java and python in mobile software development to enable mlops. In 2022 18th International Conference on Wireless and Mobile Computing, Networking and Communications (WiMob), pages 363–368, 2022.spa
dc.rights.accessrightsinfo:eu-repo/semantics/openAccessspa
dc.rights.licenseAtribución-NoComercial 4.0 Internacionalspa
dc.rights.urihttp://creativecommons.org/licenses/by-nc/4.0/spa
dc.subject.ddc620 - Ingeniería y operaciones afines::629 - Otras ramas de la ingenieríaspa
dc.subject.proposalOCCeng
dc.subject.proposalVLCeng
dc.subject.proposalCSKeng
dc.subject.proposalAndroideng
dc.subject.proposalVGG16eng
dc.subject.proposalXGBoosteng
dc.subject.proposalRolling shuttereng
dc.subject.proposalSegmentación semánticaspa
dc.subject.proposalSemantic segmentationeng
dc.subject.proposalOCCspa
dc.subject.proposalVLCspa
dc.subject.proposalCSKspa
dc.subject.proposalVGG16spa
dc.subject.proposalXGBoostspa
dc.subject.unescoFilmaciónspa
dc.subject.unescoFilm makingeng
dc.subject.unescoEquipamiento electrónicospa
dc.subject.unescoElectronic equipmenteng
dc.subject.unescoFormación de las imágenesspa
dc.subject.unescoImage formationeng
dc.titleDiseño e implementación de un sistema de comunicación de cámara óptica que utiliza el método de rolling shutter y la modulación por corrimiento de colorspa
dc.title.translatedDesign and implementation of an optical camera communication system using the rolling shutter method and color-shift keying modulationeng
dc.typeTrabajo de grado - Maestríaspa
dc.type.coarhttp://purl.org/coar/resource_type/c_bdccspa
dc.type.coarversionhttp://purl.org/coar/version/c_ab4af688f83e57aaspa
dc.type.contentTextspa
dc.type.driverinfo:eu-repo/semantics/masterThesisspa
dc.type.redcolhttp://purl.org/redcol/resource_type/TMspa
dc.type.versioninfo:eu-repo/semantics/acceptedVersionspa
dcterms.audience.professionaldevelopmentEstudiantesspa
dcterms.audience.professionaldevelopmentInvestigadoresspa
oaire.accessrightshttp://purl.org/coar/access_right/c_abf2spa

Archivos

Bloque original

Mostrando 1 - 1 de 1
Miniatura
Nombre:
1075317295.2023.pdf
Tamaño:
6.29 MB
Formato:
Adobe Portable Document Format
Descripción:
Tesis de Maestría en Ingeniería - Ingeniería Electrónica
Descargar

Bloque de licencias

Mostrando 1 - 1 de 1
Miniatura
Nombre:
license.txt
Tamaño:
5.74 KB
Formato:
Item-specific license agreed upon to submission
Descripción:
Descargar

Colecciones

Maestría en Ingeniería - Electrónica