Wireless technology is a solution to reach hard-to-reach places using cable technology. The use of wireless technology can reach these areas without using copper or cables in the data transmission process. Communication technology using wireless is one solution to connect the control system to support the creation and achievement of the goals of the 4.0 revolution so that control and monitoring become easier. With the convenience provided by wireless technology such as connecting various types of system devices between other systems. One type of wireless technology is WPAN, especially on the ZigBee system from Digi International with the IEEE 802.15.4 protocol standard with low power consumption and working at a frequency of 2.4 GHz. Utilization of the communication system from the ZigBee protocol can control according to the range capabilities of the ZigBee system. ZigBee's ability and use of communication can perform communication control robot sumobot (slave robot) and remote control (robot leader) as an introduction to command data to carry out movements on the slave robot in accordance with the orders from the robot leader After trying XBEE to send data at a certain distance without experiencing data loss, the best distance is obtained, namely 1 - 100 meters with the firmware coordinator and router settings. Data delays can be minimized with a transfer rate of 3 kbps in the data transfer rate.

ZigBee, XBEE Communication, Sumobot, Robot Sumo, WPAN

Y. Zakaria and K. Michael, “An Integrated Cloud-Based Wireless Sensor Network for Monitoring Industrial Wastewater Discharged into Water Sources,” Wirel. Sens. Netw., 2017.

S. Pirbhulal et al., “A novel secure IoT-based smart home automation system using a wireless sensor network,” Sensors (Switzerland), 2017.

H. C. Lee and H. H. Lin, “Design and Evaluation of an Open-Source Wireless Mesh Networking Module for Environmental Monitoring,” IEEE Sens. J., 2016.

X. Tian et al., “Wireless body sensor networks based on metamaterial textiles,” Nat. Electron., 2019.

R. Gravina, P. Alinia, H. Ghasemzadeh, and G. Fortino, “Multi-sensor fusion in body sensor networks: State-of-the-art and research challenges,” Inf. Fusion, 2017.

M. Bor and U. Roedig, “LoRa transmission parameter selection,” in Proceedings - 2017 13th International Conference on Distributed Computing in Sensor Systems, DCOSS 2017, 2018.

A. Cama-Pinto, G. Piñeres-Espitia, J. Caicedo-Ortiz, E. Ramírez-Cerpa, L. Betancur-Agudelo, and F. Gómez-Mula, “Received strength signal intensity performance analysis in wireless sensor network using Arduino platform and XBee wireless modules,” Int. J. Distrib. Sens. Networks, 2017.

N. Ahmad, A. Hussain, I. Ullah, and B. H. Zaidi, “IOT based wireless sensor network for precision agriculture,” in iEECON 2019 - 7th International Electrical Engineering Congress, Proceedings, 2019.

I. N. B. Hartawan, P. P. Santika, I. B. A. I. Iswara, and I. G. M. N. Desnanjaya, “Effect of electromagnetic wave interference against computer network quality of service,” in Journal of Physics: Conference Series, 2020.

Q. N. Cao, C. Liu, and K. Y. Meng, “Design of oilfield wireless monitoring system based on ZigBee and WiFi,” Xi’an Shiyou Daxue Xuebao (Ziran Kexue Ban)/Journal Xi’an Shiyou Univ. Nat. Sci. Ed., 2015.

R. P. Narayanan, T. V. Sarath, and V. V. Vineeth, “Survey on Motes Used in Wireless Sensor Networks: Performance & Parametric Analysis,” Wirel. Sens. Netw., 2016.

D. J. Bora, N. Kumar, and R. Dutta, “Implementation of wireless MEMS sensor network for detection of gait events,” IET Wirel. Sens. Syst., 2019.

I. G. M. N. Desnanjaya, I. G. I. Sudipa, and I. W. D. Pranata, “Performance Analysis Of Balinese Kulkul Beats Information System Based on Website and Android Using ISO 9126,” Proceeding Electr. Eng. Comput. Sci. Informatics, 2020.

Y. Li, Z. Chi, X. Liu, and T. Zhu, “Passive-ZigBee: Enabling zigbee communication in IoT networks with 1000X+ less power consumption,” in SenSys 2018 - Proceedings of the 16th Conference on Embedded Networked Sensor Systems, 2018.

V. Varshney and M. Tiwari, “Realization of an FIR filter using ATMEGA32 microcontroller,” in 2017 International Conference on Emerging Trends in Computing and Communication Technologies, ICETCCT 2017, 2018.

D. Y. Kim, S. Kim, H. Hassan, and J. H. Park, “Adaptive data rate control in low power wide area networks for long range IoT services,” J. Comput. Sci., 2017.

X. Peng, J. Yin, P. I. Mak, W. H. Yu, and R. P. Martins, “A 2.4-GHz ZigBee Transmitter Using a Function-Reuse Class-F DCO-PA and an ADPLL Achieving 22.6% (14.5%) System Efficiency at 6-dBm (0-dBm) Pout,” IEEE J. Solid-State Circuits, 2017.

J. Tosi, F. Taffoni, M. Santacatterina, R. Sannino, and D. Formica, “Throughput Analysis of BLE Sensor Network for Motion Tracking of Human Movements,” IEEE Sens. J., 2019.

A. Zourmand, A. L. Kun Hing, C. Wai Hung, and M. Abdulrehman, “Internet of Things (IoT) using LoRa technology,” in 2019 IEEE International Conference on Automatic Control and Intelligent Systems, I2CACIS 2019 - Proceedings, 2019.

M. A. Moridi, Y. Kawamura, M. Sharifzadeh, E. K. Chanda, M. Wagner, and H. Okawa, “Performance analysis of ZigBee network topologies for underground space monitoring and communication systems,” Tunn. Undergr. Sp. Technol., 2018.

I. G. M. N. Desnanjaya and I. G. I. Sudipa, “The Control System of Kulkul Bali Based on Microcontroller,” IEEE, pp. 245–251, 2019.

Digi International, “XBee®/XBee-PRO S2C Zigbee®,” RF Module User Guide. 2018.

V. Deep and T. Elarabi, “Efficient IEEE 802.15.4 ZigBee standard hardware design for IoT applications,” in Proceedings - International Conference on Signals and Systems, ICSigSys 2017, 2017.

K. V. De Oliveira, H. M. Esgalha Castelli, S. Jose Montebeller, and T. G. Prado Avancini, “Wireless Sensor Network for Smart Agriculture using ZigBee Protocol,” in 2017 IEEE 1st Summer School on Smart Cities, S3C 2017 - Proceedings, 2018.

R. A. Salam, M. R. F. Islamy, M. M. Munir, E. Yuliza, Khairurrijal, and M. Irsyam, “Design and implementation of wireless sensor network on Ground movement Detection System,” in Proceeding - 2015 International Conference on Computer, Control, Informatics and Its Applications: Emerging Trends in the Era of Internet of Things, IC3INA 2015, 2016.

A. Hussein, A. Diaz-Alvarez, J. M. Armingol, and C. Olaverri-Monreal, “3DCoAutoSim: Simulator for Cooperative ADAS and Automated Vehicles,” in IEEE Conference on Intelligent Transportation Systems, Proceedings, ITSC, 2018.

C. R. C. Torrico, A. B. Leal, and A. T. Y. Watanabe, “Modeling and Supervisory Control of Mobile Robots: A Case of a Sumo Robot,” IFAC-PapersOnLine, 2016.

I. Borcoși, “the Control of a Sumo Robot.,” Ann. Constantin Brancusi Univ. Targu Jiu-Letters Soc. Sci. Ser., 2017.

M. Diab et al., “An Ontology for Failure Interpretation in Automated Planning and Execution,” in Advances in Intelligent Systems and Computing, 2020.

S.-C. Kang, W.-T. Chang, K.-Y. Gu, and H.-L. Chi, Robot Development Using Microsoft Robotics Developer Studio. 2016.

I. G. M. N. Desnanjaya, I. B. A. I. Iswara, A. A. G. Ekayana, P. P. Santika, and I. N. B. Hartawan, “Automatic high speed photography based microcontroller,” in Journal of Physics: Conference Series, 2020.

V. Goel et al., “Design of smartphone controlled robot using bluetooth,” in Lecture Notes in Electrical Engineering, 2019.