Pattern Lock and GPS-Based Motorcycle Security System
Pattern Lock and GPS-Based Motorcycle Security System |
||
 |
 |
|
| © 2022 by IJETT Journal | ||
| Volume-70 Issue-3 |
||
| Year of Publication : 2022 | ||
| Authors : Rometdo Muzawi, Yuda Irawan, Dinul Akhiyar, Debi Setiawan |
||
| https://doi.org/10.14445/22315381/IJETT-V70I3P221 | ||
How to Cite?
Rometdo Muzawi, Yuda Irawan, Dinul Akhiyar, Debi Setiawan, "Pattern Lock and GPS-Based Motorcycle Security System," International Journal of Engineering Trends and Technology, vol. 70, no. 3, pp. 185-194, 2022. Crossref, https://doi.org/10.14445/22315381/IJETT-V70I3P221
Abstract
Motorcycles are currently widely used by the community, but it is undeniable that there are many cases of motorcycle theft as a result of users` negligence in parking their vehicles carelessly. This paper builds a motorcycle security monitoring system with the Internet of Things (IoT) capabilities using Pattern Lock, GPS Neo 6, and Raspberry Pi 3 sensors. The findings of this study show that the system works by utilizing a cross pattern, a voltage sensor took directly from the ignition of a motorcycle as a notification of the vehicle`s life or death, and internet of things capabilities. Furthermore, this system has the advantage of being equipped with a GPS Neo 6 sensor, which functions to monitor the position of the motorcycle with longitude and latitude readings in the event of motorcycle movement.
Keywords
Motorcycle, Pattern Lock, GPS Neo 6, Raspberry Pi 3, IoT.
Reference
[1] I. Iswanto, N. Maharani, A. Maarif, G. Supangkat, and A. Pandey, Empowerment of Mosque Communities to Increase Body Immune with Aromatherapy Robots, J. Pengabdi. Dan Pemberdaya. Masy. Indones. 1(4) 127–135 (2021).
[2] I. Iswanto, N. Maharani, A. Maarif, and M. Abdus, Empowerment of Mushroom Farming Communities with Iot- Based Monitoring in Karang Kepanjen, Sleman, J. Pengabdi. Dan Pemberdaya. Masy. Indones. 1(5) (2021) 198–208.
[3] A. Nurjanah, I. Suwarno, M. Ahmad, and N. Maharani, Dissemination of Disaster Communication Technology through a Slidslide Early Detection Tools in Sonyo Hamlet, Jatimulyo Village, Kulon Progo District, J. Pengabdi. Dan Pemberdaya. Masy. Indones. 1(8) (2021) 339–348.
[4] W. Widyasmoro, I. Suwarno, I. Surahmat, T. A. Nugraha, and I. Al_barazanchi, Dissemination of Technology Utilization of FM Community Radio as a Means to Support Teaching-Learning Activities for Students During the Covid-19 Pandemic at Muhammadiyah Elementary School Tlogolelo, Hargomulyo, Kokap District, Kulon Progo, DIY, J. Pengabdi. Dan Pemberdaya. Masy. Indones. 2(1) (2022) 34–42.
[5] R. A. Anugrah et al., Application of Coconut Paper Motor Speed Control Technology for Increasing Coconut Liquid Organic Fertilizer Productivity, J. Pengabdi. Dan Pemberdaya. Masy. Indones. 2(2) (2022) 74–83.
[6] Iswanto et al., Artaka Fish Farm Community Empowerment in Karang Kepanjen Village, Trimulyo, Sleman, Sleman Regency, J. Pengabdi. Dan Pemberdaya. Masy. Indones. 1(2) (2021) 75–83.
[7] I. Iswanto, A. Maseleno, N. Maharani, A. Maarif, and M. H. Zulfiar, Empowerment of Energy Communities in Minggir II Village Yogyakarta with Iot-Based Biodigeser, J. Pengabdi. Dan Pemberdaya. Masy. Indones. 1(6) (2021) 241–248.
[8] Iswanto, N. M. Raharja, I. Prasojo, and O. Tanane, Empowerment of MSMES During the Covid-19 Pandemic with Information Technology, J. Pengabdi. Dan Pemberdaya. Masy. Indones. 1(1) (2021) 1–8.
[9] I. Iswanto, N. Maharani, A. Ma, A. Adiningrat, A. Nurjanah, and D. Uddin, Empowerment of Mosque Community with Ultraviolet Light Sterilisator Robot, J. Pengabdi. Dan Pemberdaya. Masy. Indones. 1(3) (2021) 95–102.
[10] I. Suwarno, M. Ahmad, I. Ahmad, and E. L. Rimban, Desimination of Technology Application of Blood Flow Current Technology in Puskesmas, J. Pengabdi. Dan Pemberdaya. Masy. Indones. 1(10) (2021) 431–436.
[11] I. Suwarno, R. Rahim, M. Aljanabi, M. Ahmad, and O. Tanane, Empowerment of MSMES by Optimizing Marketing of Local Products in Muntuk Hamlet with Digital Marketing, J. Pengabdi. Dan Pemberdaya. Masy. Indones. 1(10) (2021) 423–430.
[12] I. Suwarno, R. Rahim, M. Aljanabi, M. Ahmad, and O. Tanane, Education of MSMES in the Order of Improving Product Sales by using Digital Media in the Middle of the Covid-19 Pandemic, J. Pengabdi. dan Pemberdaya. Masy. Indones. 1(9) (2021) 379–388.
[13] I. Suwarno, N. Maharani, D. Uddin, and R. Andri, Technology Dissemination of Smart Tani Fish Farmers in Karang Kepanjen Hamlet, Trimulyo Village, Sleman District, Sleman Regency, J. Pengabdi. Dan Pemberdaya. Masy. Indones. 1(7) (2021) 293–302.
[14] N. M. Raharja, Iswanto, O. Wahyunggoro, and A. I. Cahyadi, Altitude Control for Quadrotor with Mamdani Fuzzy Model, in Proceedings - 2015 International Conference on Science in Information Technology: Big Data Spectrum for Future Information Economy, ICSITech 2015. (2016) 309–314.
[15] Iswanto and A. Ma’arif, Robust Integral State Feedback Using Coefficient Diagram in Magnetic Levitation System, IEEE Access. 8 (2020) 57003–57011.
[16] Iswanto, P. G. Prayitno, I. Permana, H. Widada, and Widyasmoro, Wifi-Based Alcohol Monitoring and Detection, J. Adv. Res. Dyn. Control Syst. 11(8) (2019) 1966–1972.
[17] I. Iswanto, M. Ilayaraja, K. Shankar, P. T. Nguyen, and S. Abadi, Challenges of Medical Text and Image Processing, Int. J. Eng. Adv. Technol. 8(6) (2019) 969–973.
[18] H. Suwoyo, C. Deng, Y. Tian, and A. Adriansyah, Improving a Wall-Following Robot Performance with a PID-Genetic Algorithm Controller, Int. Conf. Electr. Eng. Comput. Sci. Informatics. (2018) 314–318.
[19] A. Puscasiu, S. Folea, H. Valean, A. Franca, and T. Stanislav, Monitoring the On-Site Contribution to the Greenhouse Effect by Distributed Measurement of Carbon Dioxide, in 2017 18th International Carpathian Control Conference (ICCC). (2017) 40–45.
[20] T. Pellis et al., Off-Patient Assessment of Pre-Cordial Impact Mechanics Among Medical Professionals in North-East Italy Involved in Emergency Cardiac Resuscitation, Prog. Biophys. Mol. Biol. 110(2–3) (2012) 390–396.
[21] T. Klingberg and M. Schilling, Mobile Wearable Device for Long Term Monitoring of Vital Signs, Comput. Methods Programs Biomed. 106(2) 89–96 (2012).
[22] S. Yin et al., A 1.06-?W Smart ECG Processor in 65-nm CMOS for Real-Time Biometric Authentication and Personal Cardiac Monitoring, IEEE J. Solid-State Circuits. 54(8) (2019) 2316–2326.
[23] H. De Clercq and R. Puers, A Neonatal Body Sensor Network for Long-Term Vital Signs Acquisition, Procedia Eng. 47 (2012) 981–984.
[24] H. Yuliandoko, Subono, V. A. Wardhany, S. H. Pramono, and P. Siwindarto, Design of Flooding Detection System Based on Velocity and Water Level DAM With ESP8266, in 2017 2nd International Conferences on Information Technology, Information Systems and Electrical Engineering (ICITISEE). 2018 (2017) 396–401.
[25] R. Gupta, J. Bera, and M. Mitra, A Bi-Phase Enabled Serial Acquisition System for Remote Processing of Digitized ECG, Comput. Electr. Eng. 38(1) (2012) 68–74.
[26] H. F. Rezaei, N. Sitter, and A. Kruger, Next-Generation System for Real-Time Monitoring of Rainfall, Soil Moisture, and Soil Temperature, in 2011 IEEE Sensors Applications Symposium. (2011) 70–75.
[27] Y. Wang, X. Zhang, and D. Xu, Electronic Ballast for 119W UV Lamp Controlled by Microprocessor, in 2009 IEEE Industry Applications Society Annual Meeting. (2009) 1–5.
[28] I. Suwarno, W. A. Oktaviani, Y. Apriani, D. U. Rijalusalam, and A. Pandey, Potential Force Algorithm with Kinematic Control as Path Planning for Disinfection Robot, J. Robot. Control. 3(1) (2022) 107–114.
[29] I. Iswanto and I. Ahmad, Second-Order Integral Fuzzy Logic Control Based Rocket Tracking Control, J. Robot. Control. 2(6) (2021) 594–604.
[30] D. U. Rijalusalam and I. Iswanto, Implementation Kinematics Modeling and Odometry of Four Omni Wheel Mobile Robot on the Trajectory Planning and Motion Control Based Microcontroller, J. Robot. Control. 2(5) (2021) 448–455.
[31] R. I. Alfian, A. Ma’arif, and S. Sunardi, Noise Reduction in the Accelerometer and Gyroscope Sensor with the Kalman Filter Algorithm, J. Robot. Control. 2(3) (2021) 180–189.
[32] Iswanto, O. Wahyunggoro, and A. I. Cahyadi, “Path planning based on fuzzy decision trees and potential field, Int. J. Electr. Comput. Eng. 6(1) (2016) 212–222.
[33] Iswanto, N. Prasetyoningsih, Gendroyono, G. Nugroho, and M. E. Sulistyo, Building the Village of People Become a Healthy and Productive Community, Int. J. Innov. Technol. Explor. Eng. 9(1) (2019) 2861–2865.
[34] I. Iswanto, W. Setiawan, E. Laxmi Lydia, K. Shankar, and P. T. Nguyen, Machine Learning for Healthcare, Int. J. Eng. Adv. Technol. 8(6) (2019) 954–959.
[35] N. M. Raharja, E. Firmansyah, A. I. Cahyadi, and Iswanto, Hovering Control of Quadrotor Based on Fuzzy Logic, Int. J. Power Electron. Drive Syst. 8(1) (2017) 492–504.
[36] T. P. Tunggal, A. Supriyanto, R. Nur Mukhammad Zaidatur, I. Faishal, I. Pambudi, and T. Iswanto, Pursuit Algorithm for Robot Trash Can Based on Fuzzy-Cell Decomposition, Int. J. Electr. Comput. Eng. 6(6) (2016) 2863–2869.
[37] H. Lim, J. Park, D. Lee, and H. J. Kim, Build Your Quadrotor: Open-Source Projects on Unmanned Aerial Vehicles, IEEE Robot. Autom. Mag. 19(3) (2012) 33–45.
[38] P. Pandey and R. Litoriya, Elderly Care Through Unusual Behavior Detection: A Disaster Management Approach Using Iot and Intelligence, IBM J. Res. Dev. 64(1/2) (2020) 15:1-15:11.
[39] Irawan, Yuda, et al., Intelligent Quality Control of Shrimp Aquaculture Based on Real-Time System and IoT Using Mobile Device, International Journal of Engineering Trends and Technology. 69(4) (2021) 49-56.
[40] D. Brunelli, A. M. Tadesse, B. Vodermayer, M. Nowak, and C. Castellini, Low-Cost Wearable Multichannel Surface EMG Acquisition for Prosthetic Hand Control, Proc. - 2015 6th IEEE Int. Work. Adv. Sensors Interfaces, IWASI 2015. (2015) 94–99.
[41] A. Saxena and A. Saxena, A New Generation Grid Solver Robot System for Object Picking Using Shortest Path, in 2012 International Conference on Emerging Trends in Electrical Engineering and Energy Management (ICETEEEM). (2012) 445–450.
[42] N. Bezanic and I. Popovic, Service-Oriented Sensor Network for Environmental Monitoring. (2013) 1544–1547.
[43] Yuda Irawan, Hendry Fonda, Yulisman, Mardeni, Garbage Collecting Ship Robot Using Arduino Uno Microcontroller Based on Android Smartphone International Journal of Engineering Trends and Technology. 69(6) 25-30.
[44] Y. Mulgaonkar, G. Cross, and V. Kumar, Design of Small, Safe and Robust Quadrotor Swarms. (2015) 2208–2215.
[45] R. Aarthi, R. B. Kumar, T. Ravichandran, and S. Giridharan, A Smart Hydro Electric Generator in Home Based on IOT, in 2019 5th International Conference on Advanced Computing & Communication Systems (ICACCS). (2019) 1036–1038.
[46] J. H. Perez, Neural Control for Synchronization of a Chaotic Chua-Chen System, IEEE Lat. Am. Trans. 14(8) (2016) 3560–3568.
[47] S. Hegde, H. Mekali, and G. Varaprasad, Pothole Detection and Inter-Vehicular Communication, 2014 IEEE Int. Conf. Veh. Electron. Safety, ICVES 2014. (2014) 84–87.
[48] V. Ghadiok, J. Goldin, and W. Ren, Autonomous Indoor Aerial Gripping Using a Quadrotor, in 2011 IEEE/RSJ International Conference on Intelligent Robots and Systems. 27(6) (2011) 4645–4651.
[49] K. Sukvichai and M. Parnichkun, Double-Level Ball-Riding Robot Balancing: from System Design, Modeling, Controller Synthesis, to Performance Evaluation, Mechatronics. 24(5) (2014) 519–532.
[50] R. Dharmambal and S. D. Joshi, MPPT Based Power Control of Resonant Converter Applied to Induction Cooktops, in 2016 International Conference on Advanced Communication Control and Computing Technologies (ICACCCT). 978 (2016) 477–482.
[51] R. Alayi, H. Harasii, and H. Pourderogar, Modeling and Optimization of Photovoltaic Cells with GA Algorithm, J. Robot. Control. 2(1) (2021) 35–41.
[52] M. Samuel, M. Mohamad, M. Hussein, and S. M. Saad, Lane Keeping Maneuvers Using Proportional Integral Derivative (PID) and Model Predictive Control (MPC), J. Robot. Control. 2(2) (2021) 78–82.
[53] A. N. Ogbolu and S. Sukidjo, Artificial Intelligence vs My Future Job: Perceptions of Asian Undergraduates, J. Robot. Control. 1(6) (2020) 208–212.
[54] S. Sahloul, D. B. H. Abid, and C. REKIK, A Hybridization of Global-Local Methods for Autonomous Mobile Robot Navigation in Partially-Known Environments, J. Robot. Control. 2(4) (2021) 221–233.
[55] M. Khalifa, A. H. Amhedb, and M. Al Sharqawi, Position Control of Real-Time DC Motor Using LabVIEW, J. Robot. Control. 2(5) (2021) 342–348.
[56] A. Hassan et al., A Wirelessly Controlled Robot-Based Smart Irrigation System by Exploiting Arduino, J. Robot. Control. 2(1) (2021) 29–34.
[57] R. Ramadhani, E-Marketing of Village Tourism Development Strategy (Case Study in the Tourist Village Puncak Sosok), J. Robot. Control. 2(2) (2021) 72–77.
[58] B. Alfaresi, T. Barlian, F. Ardianto, and M. Hurairah, Path Loss Propagation Evaluation and Modelling Based ECC-Model in Lowland Area on 1800 MHz Frequency, J. Robot. Control. 1(5) (2020) 167–172.
[59] S. Ashraf, A. Raza, Z. Aslam, H. Naeem, and T. Ahmed, Underwater Resurrection Routing Synergy using Astucious Energy Pods, J. Robot. Control. 1(5) (2020) 173–184.
[60] S. P. Humaira, I. Nursuprianah, and D. Darwan, Forecasting of the Number of Schizophrenia Disorder by using the Box-Jenkins of Time Series Analysis, J. Robot. Control. 1(6) (2020) 213–219.
[61] M. A. Márquez-Vera, O. López-Ortega, L. E. Ramos-Velasco, A. Rodríguez-Romero, J. C. Ramos-Fernández, and J. A. Hernández-Salazar, Adaptive Threshold PCA for Fault Detection and Isolation, J. Robot. Control. 2(3) (2021) 119–125.
[62] T. A. Assegie, An Optimized K-Nearest Neighbor Based Breast Cancer Detection, J. Robot. Control. 2(3) (2021) 115–118.
[63] I. Ahmad, M. S. Niazy, R. A. Ziar, and S. Khan, Survey on IoT: Security Threats and Applications, J. Robot. Control. 2(1) (2021) 42–46.
[64] X. Yu, P. Wu, W. Han, and Z. Zhang, A Survey on Wireless Sensor Network Infrastructure for Agriculture, Comput. Stand. Interfaces. 35(1) (2013) 59–64.
[65] S. Gupte, P. I. T. Mohandas, and J. M. Conrad, A Survey of Quadrotor Unmanned Aerial Vehicles, Conf. Proc. - IEEE SOUTHEASTCON. (2012).
[66] T. Wadghule and V. R. Aranke, Efficiency Improvement of the Photovoltaic Panel by Tracking Method, in 2016 International Conference on Electrical, Electronics, and Optimization Techniques (ICEEOT). (2016) 2996–3001.
[67] M. E. E. Alahi, L. Xie, S. Mukhopadhyay, and L. Burkitt, A Temperature Compensated Smart Nitrate-Sensor for Agricultural Industry, IEEE Trans. Ind. Electron. 64(9) (2017) 7333–7341.
[68] T. J. Alexander, An Implementation of Mobile Control Room Environment in the Android Platform for Industrial Applications, IEEE Int. Conf. Circuit, Power Comput. Technol. ICCPCT 2015. (2015).
[69] E. Subin, S. Renuka, K. Chaitanya, and A. Sudheer, Implementation of Signal Processing Filters for Portable ECG Devices Using Android Mobile Phone and Bluetooth, in 2017 14th IEEE India Council International Conference (INDICON). (2017) 1–5.
[70] M. Prabakaran, A. P. Kumar, and R. Hariharan, Hybrid H-6 Inverter Coupled Automatic Dual-Axis Solar Tracking System, In 2016 International Conference on Electrical, Electronics, and Optimization Techniques (ICEEOT). (2016) 4722–4731.
[71] L. Manzari, H. Mao, P. Göransson, J. Cuenca, and I. L. Arteaga, A Method for the Observation of the Anelastic Behavior of Anisotropic Porous Materials using Digital Image Correlation, J. Sound Vib. 474 (2020) 115244.
[72] Irawan, Yuda, Novrianto, Andre Wahyu, Sallam, Hafizh, Cigarette Smoke Detection and Cleaner Based on Internet of Things (IoT) Using Arduino Microcontroller and MQ-2 Sensor, Journal of Applied Engineering and Technological Science (JAETS). 2(2) (2021) 85-93.
[73] Susilo, Jenli, et al., Car Parking Distance Controller using Ultrasonic Sensors Based on Arduino Uno. Journal of Robotics and Control (JRC). 2(5) (2021) 353-356.
[74] Wahyuni, Refni, et al., Water Level Control Monitoring Based on Arduino Uno R3 Atmega 238p using LM016l LCD at STMIK Hang Tuah Pekanbaru, Journal of Robotics and Control (JRC). 2(4) (2021) 265-269.
[75] Iswanto, O. Wahyunggoro, and A. I. Cahyadi, Path Planning of Decentralized Multi-Quadrotor Based on Fuzzy-Cell Decomposition Algorithm, in AIP Conference Proceedings. 1831 (2017).
[76] R. Mubarok, D. V. Firmansyah, D. Haryanto, N. P. Apriyanto, U. Mahmudah, and I. Iswanto, Motorcycle-Security Using Position Searching Algorithm Based on Hybrid Fuzzy-Dijkstra, Indones. J. Electr. Eng. Comput. Sci. 3(2) (2016) 468–474.
[77] Iswanto, J. Syaftriadi, A. N. N. Chamim, R. O. Wiyagi, and R. Syahputra, LED and Servo Motor Control Via Bluetooth Based on Android Applications, Int. J. Recent Technol. Eng. 8(2) (2019) 6227–6231.
[78] A. Ma’Arif, H. Nabila, Iswanto, and O. Wahyunggoro, Application of Intelligent Search Algorithms in Proportional-Integral-Derivative Control of Direct-Current Motor System, in Journal of Physics: Conference Series. 1373(1) (2019).
[79] Purwanti, Siti, et al., Temperature Monitoring System for Egg Incubators Using Raspberry Pi3 Based on Internet of Things (IoT), Journal of Robotics and Control (JRC). 2(5) (2021) 349-352.
[80] Iswanto, P. Megantoro, and E. P. F. Dewi, Ph Meter Based Raspberry Pi and User Interface using Python, Int. J. Innov. Technol. Explor. Eng. 9(1) (2019) 1334–1338.
[81] Iswanto and N. Maharani Raharja, Standard Distance Detector Tool for TV users Based on Fuzzy Decision Tree, IOP Conf. Ser. Mater. Sci. Eng. 851(1) (2020) 012026.
[82] D. A. Prasetya, P. T. Nguyen, R. Faizullin, I. Iswanto, and E. F. Armay, Resolving the Shortest Path Problem using the Haversine Algorithm, J. Crit. Rev. 7(1) (2020) 62–64.
[83] Triwiyanto, B. G. Iranto, I. Dewa Gede Hari Wisana, H. G. Ariswati, M. P. A. T. Putra, and I. Iswanto, A Modeling of Extended Kalman Filter to Improve Accuracy in Elbow Joint Angle Estimation, J. Crit. Rev. 7(12) (2020) 886–892.
[84] Iswanto, A. Nurjanah, I. Prasojo, F. Anindiyahadi, and N. M. N. M. Raharja, Application of Nurse Calling Device at Sewon 1 Health Cente, Int. J. Innov. Technol. Explor. Eng. 8(11) (2019) 2721–2723.
[85] I. Iswanto et al., Feature Extraction and Application of Bio-Signal, Int. J. Eng. Adv. Technol. 8(6)(2) (2019) 960–964.
[86] Y. Zhao, L. Fu, and L. Wang, Design of PM2.5 Monitoring System Under the Human Micro-Environment, in 2018 IEEE 27th International Symposium on Industrial Electronics (ISIE). 2018 (2018) 218–223.
[87] Irawan, Yuda, Wahyuni, Refni, Electronic Equipment Control System for Households by using Android Based on Iot (Internet Of Things), In: Journal of Physics: Conference Series, Iop Publishing. (2021) 012094.
[88] K. Niles, J. Ray, K. Niles, A. Maxwell, and A. Netchaev, Monitoring for Analytes through LoRa and LoRaWAN Technology, Procedia Comput. Sci. 185 (2021) 152–159.
[89] R. Yildiz, M. Barut, and E. Zerdali, A Comprehensive Comparison of Extended and Unscented Kalman Filters for Speed-Sensorless Control Applications of Induction Motors, IEEE Trans. Ind. Informatics. 16(10) (2020) 6423–6432.
[90] Rahmalisa, Uci, Febriani, Anita, Irawan, Yuda, Detector Leakage Gas LPG Based on Telegram Notification using Wemos D1 and Mq-6 Sensor, Journal of Robotics and Control (JRC). 2(4) (2021) 287-291.
[91] T. Dietzen, S. Doclo, M. Moonen, and T. van Waterschoot, Integrated Sidelobe Cancellation and Linear Prediction Kalman Filter for Joint Multi-Microphone Speech Dereverberation, Interfering Speech Cancellation, and Noise Reduction, IEEE/ACM Trans. Audio, Speech, Lang. Process. 28(c) (2020) 740–754.
[92] Irawan, Yuda, et al., Real-Time System Monitoring and Analysis-Based Internet of Things (IoT) Technology in Measuring Outdoor Air Quality, International Journal of Interactive Mobile Technologies. 15(10) (2021).
[93] D. Feng, C. Wang, C. He, Y. Zhuang, and X.-G. Xia, Kalman-Filter-Based Integration of IMU and UWB for High-Accuracy Indoor Positioning and Navigation, IEEE Internet Things J. 7(4) (2020) 3133–3146.
[94] S. J. Alam and S. R. Arya, Control of UPQC Based on Steady-State Linear Kalman Filter for Compensation of Power Quality Problems, Chinese J. Electr. Eng. 6(2) (2020) 52–65.
[95] J. Wang, Y. Qian, F. Li, J. Liang, and W. Ding, Fusing Fuzzy Monotonic Decision Trees, IEEE Trans. Fuzzy Syst. 28(5) (2020) 887–900.
[96] Devis, Yesica, et al., Monitoring System of Heart Rate, Temperature, and Infusion in Patients Based on Microcontroller (Arduino Uno). In: Journal of Physics: Conference Series. IOP Publishing. (2021) 012069.
[97] K. W. Gunawan, N. Halimawan, and Suharjito, Lightweight End to End Pose-Robust Face Recognition System with Deep Residual Equivariant Mapping, Procedia Comput. Sci. 179(2020) (2021) 648–655.
[98] J. S. Nayak and M. Indiramma, An Approach To Enhance Age Invariant Face Recognition Performance Based on Gender Classification, J. King Saud Univ. - Comput. Inf. Sci. xxxx (2021).
[99] A. B. Shetty, Bhoomika, Deeksha, J. Rebeiro, and Ramyashree, Facial Recognition using Haar Cascade and LBP Classifiers, Glob. Transitions Proc. (2021) 0–12.
[100] Wahyuni, Refni, et al., Home Security Alarm Using Wemos D1 and HC-SR501 Sensor-Based Telegram Notification, Journal of Robotics and Control (JRC). 2(3) (2021) 200-204.
[101] Irawan, Yuda, et al., Voice-Based Home Security and SMS Gateway Using Arduino Uno Microcontroller and Passive Infra-Red Sensor, Journal of Applied Engineering and Technological Science (JAETS). 3(1) (2021) 19-25.
[102] H. D. Hesar and M. Mohebbi, An Adaptive Kalman Filter Bank for ECG Denoising, IEEE J. Biomed. Heal. Informatics. 25(1) (2021) 13–21.
[103] Perkasa, Reza, et al., Light Control Using Human Body Temperature Based on Arduino UNO And PIR (Passive Infrared Receiver) Sensor, Journal of Robotics and Control (JRC). 2(4) (2021) 307-310.
[104] Z. Patel and E. Boje, A Hybrid, Coupled Approach to the Continuous-Discrete Kalman Filter, IEEE Control Syst. Lett. 5(3) (2021) 827–832.
[105] Irawan, Yuda, Moving Load Robot Using Wifi Network and Android Based, Journal of Robotics and Control (JRC). 2(3) (2021) 217-220.
[106] D. Sun, X. Li, Z. Cao, J. Yong, D. Zhang, and J. Zhuang, Acoustic Robust Velocity Measurement Algorithm Based on Variational Bayes Adaptive Kalman Filter, IEEE J. Ocean. Eng. 46(1) (2021) 183–194.
[107] X. Li and R. Kennel, General Formulation of Kalman-Filter-Based Online Parameter Identification Methods for VSI-Fed PMSM, IEEE Trans. Ind. Electron. 68(4) (2021) 2856–2864.
[108] Irawan, Yuda, Fernando, Yunior, Wahyuni, Refni, Detecting Heart Rate Using Pulse Sensor as Alternative Knowing Heart Condition, Journal of Applied Engineering and Technological Science (JAETS). 1(1) (2019) 30-42.
[109] C. Shen et al., Seamless GPS/Inertial Navigation System Based on Self-Learning Square-Root Cubature Kalman Filter, IEEE Trans. Ind. Electron. 68(1) (2021) 499–508.