![]() The module is designed by using the Texas Instruments CC2541 Bluetooth low energy(BLE) System on Chip (SoC). This module is used for establishing wireless data communication. In: IEEE International Conference on Computational Intelligence and Computing Research, pp.The HM-10 BLE Wireless Module-Original is a readily available Bluetooth 4.0 module, which can configure as either Master or slave. ![]() ![]() Teckchandnri, Y., Perumal, G.S., Mujumdar, R., Lokanathan, S.: Large screen wireless notice display board. In: Proceedings of International Conference on Electrical Information and Communication Technology (EICT 2015), pp. Morsalin, S., Rahman, A., Siddiqe, M.A.B., Saha, P., Halim, M.R.: Password protected multiuser wireless electonic noticing system by GSM with robust algorithm. Saini, B., Devi, R., Dhankhar, S., Haque, M.Z., Kaur, J.: Smart LED display board. In: International Conference on Application of Information and Communication Technologies, pp. Yedilkhan, A., Rassim, S., Andrey, B., Ari, N.: Design of an international display based on several LED matrices and a single microcontroller. Verma, K.: Internet of Things (IoT) LED Lamp. Pawar, P., Langade, S., Bandgar, M.: A paper on IoT based digital notice board using arduino ATMega 328. Ketkar, P.U., Tayade, K.P., Kulkarni, A.P., Tugnayat, R.M.: GSM mobile phone based LED scrolling message display system. In: International Conference on Reliability, Infocom, Technologies and Optimization (ICRITO), pp. Khera, N., Shukla, D., Avasthi, S.: Development of simple and low-cost android based wireless notice board. Tsai, M.F., Ye, C.K., Sinn, A.: Smart service relying on internet of things technology in parking systems. J. In: International Conference on Signal Processing, Communication, Power and Embedded System (SCOPES), pp. Simha, K., Shreya, Kumar, C., Parinitha, C., Tantry, S.: Electronic notice board with multiple output display. In: IEEE 2nd International Conference on Innovations in Information Embedded and Communication Systems (ICIIECS), pp. 209–214 (2017)Ĭhaurasi, D.M., Sahu, G., VijayaBaskar, V.: A smart informant system for institutional transport system. In: International Conference on Applied and Theoretical Computing and Communication Technology, pp. Rangani, D.G., Tahilramani, N.V.: Smart notice board. In: International Conference on Computational Techniques in Information and Communication Technology (ICCTICT), pp. Pramanik, A., Rishikesh, Nagar, V., Dwivedi, S., Choudhury, B.: GSM based smart home and digital notice board. In: 2018 International Conference on Intelligent Transportation Big Data & Smart City (ICITBS), pp. 55(3), 117–123 (2017)Ĭao, X., Li, Y.: Data collection and network architecture analysis in internet of vehicles based on NB-IoT. Wang, Y.P., Lin, X., Adhikary, A.: A primer on 3GPP narrowband internet of things. In IOP Conference Series: Materials Science and Engineering, vol. Kumar, M.E., Reddy, G.T., Sudheer, K., Reddy, M.P.K., Kaluri, R., Rajput, D.S., Lakshmanna, K.: Vehicle theft identification and intimation using gsm & iot. In: International Conference on Information Systems and Computer Aided Education (ICISCAE) ( 2019). Zhou, S.,Wang, J., Wang, F.: A design of outdoor display monitoring system based on NB-IoT. Maddikunta, P.K.R., Gadekallu, T.R., Kaluri, R., Srivastava, G., Parizi, R.M., Khan, M.S.: Green communication in IoT networks using a hybrid optimization algorithm. In: International Conference on Sustainable Computing in Science, Technology and Management (SUSCOM) (2019) ![]() ![]() Reddy, G.T., Kaluri, R., Reddy, P.K., Lakshmanna, K., Koppu, S., Rajput, D.S.: A novel approach for home surveillance system using IoT adaptive security. This display system can be used to exhibit any information in transportation, colleges, and in many other places. So instead of a complex programming procedure, it can also be operated by a simpler mobile app called LED-Art for Android operating system. This driver board comprises of built-in modules of Wi-Fi modem, U-disk port, and supports GUI based program tool. In this work, we are using the W60-75 RGB driver board to program the LEDs for the display system using IoT connectivity using Bluetooth and Wi-Fi protocols. In this paper, the design, implementation, and cost optimization of an IoT controlled RGB display system is presented. Using RGB LEDs, we can produce different colors by adjusting the intensity of light using the pulse width modulation (PWM) signal. It consumes more power, occupies more space, and is heavyweight and not so flexible to program from user perspective. Normally for the dot matrix display, we are using a single-color LED light or RGB LEDs. In the present era, in every field, we are using IoT. Using IoT, we can transfer data without human-to-human interaction. The Internet of Things (IoT) is an incompatible technology used in various applications. ![]()
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