Publications (patents, books, dissertations, papers, others )
Patents applications (including 24 granted patents)[1]
[P056] [Granted] Zhibo Pang, Michele Luvisotto, Roger Jansson, “Method to efficiently handle low latency cyclic data inside a wireless communication node between communication interface and applications within node while maintaining data consistency and handling communication errors efficiently”, International Patent PCT published as US 11,233,624 B2, EP19155669.5, Assignee: ABB Technology Ltd, Filed 2019-02-06, Granted in US: 2022-01-25. (Core innovation: hardware MAC and software MAC interfaced by shared memory with batch processing).
[P047] [In granting procedure] Zhibo Pang, Xiaolin Jiang, Michele Luvisotto, Dacfey Dzung, Roger Jansson, Carlo Fischione, “Route Selection in a Wireless Communication System”, International Patent PCT published as WO-2019242943-A1, Assignee: ABB Technology Ltd, Filed: 2019-05-15, Published: 2019-12-26. (Core innovation: to enable the WirelessHP-based control of critical automation systems, ultra-short latency is required, and this makes the delay spread unneglectable due to multipath effect during radio signal propagation. In some cases, two hops via the wireless channels with shorter delay spread may result in shorter latency than single hop via the channels with larger delay spread. We select the optimal links and physical layer structure and parameters e.g. the length of cyclic prefix based on the characterization of the wireless channel e.g. the delay spread. The overall method is called CCDO-- channel characterization-based delay optimization).
[P046] [In granting procedure] Zhibo Pang, Michele Luvisotto, Dacfey Dzung, “Packet detection in a wireless communication network for power grid control”, International Patent PCT published as WO-2019158181-A1, Assignee: ABB Technology Ltd, Filed: 2018-02-13, Published: 2019-09-26. (Core innovation: to enable the WirelessHP-based control of substation automation systems, single OFDM symbol is applied as preamble of physical layer packet but this makes it more difficult to detect the received from the background noises and interferences by the receiver. We exploit the OFDM symbol and predict the time to start packet detection based on the available scheduling information to further reduce the probability of false alarm).
[P045] [In granting procedure] Zhibo Pang, Michele Luvisotto, Dacfey Dzung, “Frequency estimation in a wireless communication network for power grid control”, International Patent PCT published as WO-2019158182-A1, Assignee: ABB Technology Ltd, Filed: 2018-02-13, Published: 2019-10-02. (Core innovation: to enable the WirelessHP-based control of power grids automation systems, single OFDM symbol is applied as preamble of physical layer packet but this makes it more difficult to estimate and compensate the carrier frequency error by the receiver. We exploit the cyclic prefix of each OFDM symbol and accumulate the error extracted from multiple time slots based on the available scheduling information to further improve the accuracy of error estimation).
[P045] [Granted] Zhibo Pang, Michele Luvisotto, “Automatic gain control in a wireless communication network for power grid control”, International Patent PCT published as WO2019158183, CN111713015 EP3753104 US20210006219 EP2018705872, Assignee: ABB Technology Ltd, Filed: 2018-02-13, Published: 2019-10-02. Granted: 2021-06-01,(Core innovation: to enable the WirelessHP-based control of power grids automation systems, ultra-short packet is applied but this makes it more difficult to estimate the received signal strength and control the gain of analog amplifier by the receiver. We signal strength of each packet and accumulate across multiple time slots based on the available scheduling information to improve the accuracy of estimation).
[P044] [In granting procedure] Zhibo Pang, Michele Luvisotto, “Channel access in an industrial wireless network”, International Patent PCT published as WO-2019192683-A1, Assignee: ABB Technology Ltd, Filed: 2018-02-13, Published: 2019-11-20. (Core innovation: to enable the WirelessHP-based control of critical automation systems, centralized scheduling and radio resource allocation is combined with local resource allocation to efficiently utilize the channel resources for achieving ultra-short latency).
[P043] [Granted] Zhibo Pang, Dacfey Dzung, Mikael Davidsson, “Communications network for communication between a control unit and a power electronics element”, International Patent PCT published as WO-2018210413, US20200076548, EP3625914, CN110915155, Assignee: ABB Technology Ltd, Filed: 2017-05-16, Published:2019-01-02. (Core innovation: to enable the WirelessHP-based control of high voltage power electronics systems like the HVDC power converter, acknowledgement from each switching device is transmitted to the controller concurrently by CDMA and forwarded more efficiently through multi-hop network to reduce the round-trip latency and occupied channel resources)
[P042] [Granted] Zhibo Pang, Dacfey Dzung, “Communications system for transmission of control signals to a power electronics module”, International Patent PCT published as WO-2018215073, EP3631941, Assignee: ABB Technology Ltd, Filed 2017-05-26, Published: 2019-01-09. (Core innovation: to enable the WirelessHP-based control of high voltage power electronics systems like the HVDC power converter, beamforming is applied to tune the pattern of the radio signals between transmitter and receiver which can improve reliability and reduce the risk caused by intentional and nonintentional interferences).
[P041] [Published] Zhibo Pang, Gargi Bag, Johannes O. Schmitt, “System and method for improving latency in a wireless building automation network”, European Patent EP-3367613-A1, Assignee: ABB Technology Ltd, Filed: 2017-03-07, Published: 2018-08-29. (Core innovation: in IWSN network like the Thread, the transmitter adaptively set the timeout limit in application layer according to the link quality specially to tolerate the “stair effect” due to application layer retransmission).
[P040] [Published] Zhibo Pang, Johannes O. Schmitt, “Communicating with wireless nodes of an automation system using two communication protocols”, European Patent EP-3364703-A1, Assignee: ABB Technology Ltd, Filed: 2017-02-20, Published: 2018-08-22. (Core innovation: to integrate self-powered IWSN device running another lower power protocol with predictable traffic into the main wireless building automation system, the gateway opens a time window to receive the packets from the self-powered devices with period pattern so that the self-powered device don’t need to maintain the network context to save energy).
[P039] [Published] Zhibo Pang, Dapeng Lan, Yu Liu, Johannes O. Schmitt, “Transmitting address parameters of an informer device”, European Patent EP-3364687-A1, Assignee: ABB Technology Ltd, Filed 2017-02-20, Published: 2018-08-22. (Core innovation: transmit address parameter in mesh IWSN to solve the bug which could cause the lost of context when a node drops and rejoins the network e.g. in the Thread).
[P038] [Published] Zhibo Pang, Yu Liu, Dapeng Lan, Johannes O. Schmitt, “Renewing address parameters of a paired device”, European Patent EP-3364634-A1, Assignee: ABB Technology Ltd, Filed 2017-02-20, Published: 2018-08-22. (Core innovation: In the thread, the initiator device check if its Paired Device has updated the AMR due to dropping and rejoining operations, only selected devices need to be updated based on the paring information to minimize the traffic caused).
[P037] [Published] Zhibo Pang, “Aligning communication time slots in a building automation network”, Swedish Patent SE-201751274-A1, Assignee: ABB Technology Ltd, Filed 2017-10-13, Published: 2017-10-13. (Core innovation: use the AC waveform of mains power supply to extract timing signal to synchronize the wired and wireless devices in building automation network).
[P036] [Granted] Zhibo Pang, Dacfey Dzung, Mikael Davidsson, “Communications network for communication between a power electronics element and a control unit”, International Patent PCT published as WO-2018113960, CN-110168832, EP-3560058,, Assignee: ABB Technology Ltd, Filed 2016-12-21, Published: 2018-06-28. (Core innovation: using short latency, high reliability and multi-hop WirelessHP network to transmit control commands for the switching signals of power electronics devices like IGBT in high voltage power electronics systems like HVDC converter).
[P035] [In granting procedure] Johannes O. Schmitt, Zhibo Pang, “Method for retrofitting, renewal and / or expansion of an arrangement and such a retrofitted, renewed and / or extended arrangement”, German Patent DE-102017129458-A1, Assignee: ABB Technology Ltd, Filed: 2016-10-25, Published: 2018-07-30. (Core innovation: to use the doorbell cable to transmit high date rate video and audio data of door entry system, high data rate signaling and physical layer is applied to the low cost and noisy doorbell cable with stuffiest reliability).
[P034] [Published] Zhibo Pang, Gargi Bag, Johannes O. Schmitt, “System and method for improving multicast latency and reliability of multicast transmissions in a wireless building automation network”, European Patent EP-3327988-A1, Assignee: ABB Technology Ltd, Filed: 2016-11-24, Published: 2018-05-30. (Core innovation: select the optimal group of forwarding nodes for multicast in IWSN based on the cost to avoid unnecessary multicast/broadcast/flooding and reduce the negative effects (e.g. network congestion), then improve the overall reliability and user experience.).
[P033] [Published] Zhibo Pang, Gargi Bag, Johannes O. Schmitt, “System and method for measuring multicast network performance in a wireless building automation network”, European Patent EP-3327995-A1, Assignee: ABB Technology Ltd, Filed 2016-11-24, Published: 2018-05-30. (Core innovation: a simple protocell to measure multicast latency in IWSN where the source devices sends a multicast then a unicast to the destination devices, and the devices only need to use their local time counter which don’t need to be synchronized).
[P032] [Published] Zhibo Pang, Gargi Bag, Johannes O. Schmitt, “Device and method for sending messages in a wireless building automation network”, European Patent EP-3327987-A1, Assignee: ABB Technology Ltd, Filed: 2016-11-24, Published: 2018-05-30. (Core innovation: compare the cost of multicast and unicast then select the optimal way for sending the message over IWSN in building automation systems).
[P031] [Published] Zhibo Pang, Gargi Bag, Johannes O. Schmitt, “Battery life estimation”, European Patent EP-3306331-A1, Assignee: ABB Technology Ltd, Filed 2016-11-08, Published: 2018-04-11. (Core innovation: integrate the battery life estimation in the commission tool so that the battery life of battery powered IWSN devices can be estimated and the entire system can be validated before field installation).
[P030] [Published] Zhibo Pang, Gargi Bag, Johannes O. Schmitt, “Methods and devices of a building automation system”, European Patent EP-3306895-A1, Assignee: ABB Technology Ltd, Filed 2016-11-08, Published: 2018-04-11. (Core innovation: reconfigure the devices in building automation system to adapt to special users by identifying the users e.g. elderly, patients, disabled, and child to improve safety and user experiences).
[P029] [Published] Zhibo Pang, Gargi Bag, Johannes O. Schmitt, “System and method for reducing interferences between multiple wireless protocols of a wireless building automation network”, European Patent EP-3310085-A1, Assignee: ABB Technology Ltd, Filed 2016-11-08, Published: 2018-04-11. (Core innovation: collecting PHY/MAC layer information of IWSN devices coexisting in the same building automation system and coordinate the channel allocation to reduce interferences among different protocols).
[P027] [Published] Gargi Bag, Pang Zhibo, Morgan Johansson, “Optimizing duty cycles of paired devices in building automation”, European Patent EP-3285523-A1, Assignee: ABB Technology Ltd, Filed 2016-08-17, Published: 2018-02-21. (Core innovation: synchronization and appointment of wake-up schedules between different nodes in IWSN without clock synchronization for optimal duty cycle and low power consumption).
[P026] [Published] Johannes O. Schmitt, Pang Zhibo, Gargi Bag, Luka Lednicki, “Method to improve communication in building automation using adaptive timeout on service layer”, International Patent PCT published as DE102016004340A1, WO2002058309A2, Assignee: ABB Technology Ltd, Filed 2016-04-13, Published: 2017-11-09. (Core innovation: adaptively adjust the timeout at service layer of the IWSN system so that the receiver can tolerate longer latency due to temporary drop of link quality without trigger system level errors or service interruption).
[P025] [Granted] Zhibo Pang, Gargi Bag, Morgan Johansson, “Installation of building automation devices”, International Patent PCT published as WO 2017092802 A1, EP-3384633-A1, US-20180278433-A1, Assignee: ABB Technology Ltd, Filed 2015-12-02, Published: 2017-06-08. (Core innovation: an added functionality in a mobile device that uses location information to help install devices in correct place, pair physically close by devices as corresponding nodes, and assign common security parameter for devices located close by for group communication).
[P024] [Granted] Zhibo Pang, Gargi Bag, Morgan Johansson, “Managing communication between gateway and building automation device by installing protocol software in gateway”, International Patent PCT published as WO 2017084719 A1, EP-3378192-A1, US 10,892,908 B2. Assignee: ABB Technology Ltd, Filed 2015-11-20, Published: 2017-05-26. (Core innovation: download and install the protocol software from server to the gateway so that the gateway can support multiple IWSN protocols with lower cost and become future proof).
[P022] [Granted] Zhibo Pang, Gargi Bag, Morgan Johansson, “Health report sending from a wireless communication network”, International Patent PCT WO-2017092825-A1, DE-112015007164-T5, US 10,708,800 B2, Assignee: ABB Technology Ltd, Filed 2015-12-04, Published: 2017-06-08. (Core innovation: sending the health status of IWSN devices for on-site diagnosis through a second protocol e.g. BLE without interrupting the communication of the main protocol e.g. Thread during operation in building automation systems)
[P021] [In granting procedure] Johannes Schmitt, Pang Zhibo, Morgan Johansson, “Device for detecting an electrical apparatus connected to an intelligent socket insert”, European Patent EP-3121930-A1, DE-102015009361-A1, Assignee: ABB AG, Filed 2015-06-24, Published 2017-01-25. (Core innovation: integrate NFC tag in the plug and NFC reader in socket so that they can be paired to improve safety)
[P020] [Published] Pang Zhibo, Gargi Bag, Johannes Schmitt, Morgan Johansson, “Sniffer functionality in a building automation system”, Swedish Patent SE1500502 A1, Assignee: ABB Technology Ltd, Filed 2015-12-07, Published 2015-12-09. (Core innovation: using mobile device or other network to listen to network traffic promiscuously to retrieve diagnostic information of IWSN in building automation systems)
[P019] [Published] Niclas Ericsson, Zhibo Pang, Lennart Balgard, Linus Thrybom, Gargi Bag, Morgan Johansson, “Building automation system and method therefor”, International Patent PCT published as WO2015185087 A1, Assignee: ABB Technology Ltd, Filed 2014-06-02, Published 2015-12-10. (Core innovation: using location information of devices to improve efficiency of installation and configuration of IWSN in building automation system)
[P018] [Published] Gargi Bag, Zhibo Pang, Morgan Johansson, “System and method for authenticating a wireless building/home automation device”, Swedish Patent SE201400283 A1, Assignee: ABB Technology Ltd, Filed 2014-06-04, Published 2014-06-11. (Core innovation: selecting only the nearby devices to configure, authorized, and pair based the location of the installer to reduce the time of installation and configuration of IWSN in building automation system)
[P017] [Published] Gargi Bag, Ritwik Majumder, Zhibo Pang, Morgan Johansson, “A Microgrid Communication System Including A Wireless Communication Network for Improving Microgrid Operation and Reliability”, International Patent PCT published as WO 2016055084 A1, Assignee: ABB Technology Ltd, Filed 2014-10-06, Published 2016-04-14. (Core innovation: using mesh based IWSN to improve the redundancy and reliability of microgrid)
[P016] [Published] Gargi Bag, Morgan Johansson, Ritwik Majumder, Zhibo Pang, “Monitoring of a Microgrid”, International Patent PCT published as WO2016023596 A1, Assignee: ABB Technology Ltd, Filed 2014-08-15, Published 2016-02-18. (Core innovation: using IWSN in microgrid monitoring and control)
[P015] [Granted] Mikael Gidlund, Johan Åkerberg, Zhibo Pang, Kan Yu, “Determination of communication routes in a wireless communication network”, International Patent PCT published as WO2014005754, US9338058, US2015156070, EP2683199, CN104685931B, CN104685931, PL2683199T, IN2015CN17A, Assignee: ABB Research Ltd, Filed 2012-07-05, (Core innovation: using directional flooding to replace conventional routing in IWSN for better reliability and latency)
[P014] [Published] Zhibo Pang, Meigen Shen, Lirong Zheng “Ultra-low-power-consumption intelligent wireless sensor tag for intelligent package”, Chinese Patent CN201110128567.3, Assignee: Fudan Wuxi Institute, Filed 2011-05-18, published 2011-10-19. (Core innovation: discover the distributed and/or peer-to-peer sources of on-line multimedia data, then properly decode and playback the contents according to the regulatory permission, copyrights, advertisement priority, and quality reputation, which enables low complexity access of on-line multimedia services through embedded personal multimedia players with novel business model.)
[P013] [Published] Zhibo Pang, “Method and terminal apparatus for accomplishing on-line network multimedia application”, Chinese Patent CN 200810033540.4, Assignee: Shanghai Shengyue Electronics Tech Co. Ltd., Filed 2008-02-04, published 2008-08-06. (Core innovation: )
[P012] [Granted] Jun Chen, Zhijie Huang, Zhibo Pang, “A Method to display multiple images in the same screen”, Chinese Patent ZL200610098901.4, Assignee: Guoxin Science & Technology Co, Filed 2006-07-14, Granted 2010-05-12. (Core innovation: sophisticated arrangement of memory space to store the picture-in-picture image data, which largely reduces the quired SDRAM space of digital television.)
[P011] [Granted] Yuqing Zhong, Zhibo Pang, “Method for showing animation effect”, Chinese Patent ZL200610098909.0, Assignee: Guoxin Science & Technology Co, Filed 2006-07-14, Granted 2009-09-16. (Core innovation: periodically change the contents of color table to dynamically map the coded/compressed graphical user interface data to actual displayed image, which enables more flexible animation effects for UI design of digital television with minimized cost.)
[P010] [Granted] Zhibo Pang, Ding Zhang, Xiaowei Huang, “Video decoding method”, Chinese Patent ZL200610098904.8, Assignee: Guoxin Science & Technology Co, Filed 2006-07-14, Granted 2008-10-01. (Core innovation: decode the B frame of MPEG video stream twice instead of once, which enables radical reduction of required memory space to 2~3 decoded image frames.)
[P009] [Granted] Zhibo Pang, Ding Zhang, Xiaowei Huang, “Method to generate the preview images”, Chinese Patent ZL200610098903.3, Assignee: Guoxin Science & Technology Co, Filed 2006-07-14, Granted 2008-08-27. (Core innovation: apply frequency domain filtering to the DCT parameters during decoding, then apply 2D smooth filtering during playback, which largely reduces complexity to generate down sampled preview image of MPEG video stream.)
[P008] [Granted] Jian Liang, Zhibo Pang, Mengyao Zhu, “Method for video and audio synchronization”, Chinese Patent ZL200610098906.7, Assignee: Guoxin Science & Technology Co, Filed 2006-07-14, Granted 2008-11-26. (Core innovation: extra timestamps from the multiplexed MPEG audio and video streams and save them together with the demultiplexed streams respectively, then synchronize the audio and video streams based on these timestamps during decoding and playback,)
[P007] [Granted] Zhibo Pang, Bingbo Li, Xiaowei Huang, “Method to improve the SDRAM bus efficiency in video decoder”, Chinese Patent ZL200610098907.1, Assignee: Guoxin Science & Technology Co, Filed 2006-07-14, Granted 2008-12-17. (Core innovation: ping-pang operation of reading and writing SDRAM for decoding MPEG video stream, which largely increases the bandwidth efficiency of the SDRAM bus.)
[P006] [Granted] Zhibo Pang, Bingbo Li, Mingchao Ma, “Storage management method for video decoding”, Chinese Patent ZL200610098905.2, Assignee: Guoxin Science & Technology Co, Filed 2006-07-14, Granted 2008-10-22. (Core innovation: sophisticated arrangement of SDRAM memory space for decoding and playing back MPEG video stream which only requires 2~2.5 frames stored in the memory. This method radically reduces the cost of SDRAM from 32Mb to 16Mb.)
[P005] [Granted] Xiaowei Huang, Zhibo Pang, Ding Zhang, “Method to record the booting images”, Chinese Patent ZL200610098902.9, Assignee: Guoxin Science & Technology Co, Filed 2006-07-14, Granted 2008-10-22. (Core innovation: using hardware accelerator to capture an highly compressed inner frame from the MPEG2 video stream as booting image of the TV set-top-box, then play it back during the boot of the set-top-box. This method provides more user friendly design of software with minimized cost.)
[P004] [Granted] Zhijie Huang, Zhibo Pang, Ming Zhang, “Automatic channel searching method in digital Tv-set”, Chinese Patent ZL200410054279.8, Assignee: Guoxin Science & Technology Co, Filed 2004-09-03, Granted 2007-10-10. (Core innovation: use narrow band filter to scan the spectrum of receiver QAM/PSK signals, then recognize a valid TV channel is there if the spectrum meets a certain pattern, then start fast timing and carrier recovery operation until the scan of the whole band is finished. This method enables fast and blind scan/discovery of valid digital TV signals in a wide spectrum.)
[P003] [Granted] Zhibo Pang, Zhijie Huang, Ming Zhang, “Method to improve timing recovery lock detecting”, Chinese Patent ZL200410054276.4, Assignee: Guoxin Science & Technology Co, Filed 2004-09-03, Granted 2008-04-02. (Core innovation: use a FIFO structure to replace the traditional IIR filer to implement the low pass filter of the timing recovery loop of QAM/PSK signals. This method can achieve both smoothness and responsiveness of the timing recovery loop, which is important for fast signal/channel search.)
[P002] [Granted], Zhijie Huang, Zhibo Pang, Ming Zhang, “A method of timing recovery”, Chinese Patent ZL200410054277.9, Assignee: Guoxin Science & Technology Co, Filed 2004-09-03, Granted 2008-02-06. (Core innovation: select useful half-symbol and full-symbol samples from the I and Q components by applying a selectin window according to their amplitude and phase, then extract the time recovery error from the selected I/Q samples. This method can enable fast timing recovery of QAM/PSK signals with very large carrier frequency error which is important for fast signal/channel search.)
[P001] [Granted], Zhibo Pang, Zhijie Huang, Ming Zhang, “A lock detecting method in timing recovery for QAM and PSK signals”, Chinese Patent ZL200410054278.3, Assignee: Guoxin Science & Technology Co, Filed 2004-09-03, Granted 2008-04-02. (Core innovation: calculate the average radius of the half-symbol samples and full-symbol samples of the I and Q components of QAM/PSK signals, the timing recovery loop is seen as locked when the difference between these two average values is big enough. This method can largely increase the reliability and timeliness of the detection which is important for fast signal/channel search.)
Dissertations
[D2] Zhibo Pang, “Technologies and Architectures of the Internet-of-Things (IoT) for Health and Well-being”, PhD Thesis, KTH Royal Institute of Technology, Stockholm, Sweden, 2013
[D1] Zhibo Pang, “Business Model Design for Personal Mobile Healthcare Service: the Methodology and Case Study”, MBA Thesis, University of Turku, Turku, Finland, June 2012.
Authored or edited books
[B02] Hans-Peter Bernhard, and Zhibo Pang, Proceedings of the 17th IEEE International Workshop on Factory Communication Systems (WFCS 2021) - Communication in Automation, IEEE, 2021
[B01] Zhibo Pang, Lefei Li, and Gang Li, Proceedings of the 5th International Conference on Enterprise Systems (ES2017) - Industrial Digitalization by Enterprise Systems, IEEE, 2017
Peer-reviewed journal publications
[J098] J. Jin, K. Yu, N. Zhang and Z. Pang, "Guest Editorial Real-time Edge Computing over New Generation Automation Networks for Industrial Cyber-Physical Systems," in IEEE Transactions on Industrial Informatics, 2022, doi: 10.1109/TII.2022.3189436.
[J097] W. Lei, Z. Pang, H. Wen*, W. Hou and W. Han, "FDI Attack Detection at the Edge of Smart Grids based on Classification of Predicted Residuals," in IEEE Transactions on Industrial Informatics, doi: 10.1109/TII.2022.3174159.
[J096] E. Sisinni, T. Sauter, Z. Pang and H. -P. Bernhard, "Guest Editorial: Advanced Industrial Communication Systems - A sneak peak to the ecosystem of next generation industrial communications," in IEEE Transactions on Industrial Informatics, doi: 10.1109/TII.2022.3167381.
[J095] M. Zhan, Z. Pang*, D. Dzung, K. Yu and M. Xiao, "Short-Packet Interleaver against Impulse Interference in Practical Industrial Environments," in IEEE Transactions on Wireless Communications, 2022, doi: 10.1109/TWC.2022.3183175.
[J094] Shiying Ni, Xiwen Bai, Yuchen Liang, Zhibo Pang & Lefei Li* (2022) Blockchain-based traceability system for supply chain: potentials, gaps, applicability and adoption game, Enterprise Information Systems, DOI: 10.1080/17517575.2022.2086021
[J093] Zhang, L.; Gu, Y.*; Wang, R.; Yu, K.; Pang, Z.; Li, Y.; Vucetic, B. “Enabling Real-Time Quality-of-Service and Fine-Grained Aggregation for Wireless TSN”. Sensors 2022, 22, 3901. https://doi.org/10.3390/s22103901
[J092] M. Zhan, Z. Pang*, K. Yu*, J. Xu, F. Wu and M. Xiao, "Noise Error Pattern Generation Based on Successive Addition-Subtraction for GRAND-MO," in IEEE Communications Letters, doi: 10.1109/LCOMM.2022.3148302.
[J091] H. Lv, D. Kong, G. Pang, B. Wang, Z. Yu, Z. Pang, G. Yang*, "GuLiM: A Hybrid Motion Mapping Technique for Teleoperation of Medical Assistive Robot in Combating the COVID-19 Pandemic," in IEEE Transactions on Medical Robotics and Bionics, doi: 10.1109/TMRB.2022.3146621. 2022
[J090] Liu, Y.; Mousavi, S.; Pang, Z.; Ni, Z.; Karlsson, M.; Gong, S. “Plant Factory: A New Playground of Industrial Communication and Computing” in Sensors 2022, 22, 147. https://doi.org/10.3390/s22010147
[J089] H. Wang, M. Xiao*, and Z. Pang, “Satellite Based Computing Networks with Federated Learning,” in IEEE Wireless Communications Magazine, 2021
[J088] Q. Wang, R. Candell, W. Liang* and Z. Pang, "System Error Calibration in Large Datasets of Wireless Channel Sounding for Industrial Applications," in IEEE Journal of Emerging and Selected Topics in Industrial Electronics, vol. 3, no. 1, pp. 113-123, Jan. 2022, doi: 10.1109/JESTIE.2021.3122839..
[J087] F. Xie, Z. Pang, H. Wen*, W. Lei and X. Xu, "Weighted Voting in Physical Layer Authentication for Industrial Wireless Edge Networks," in IEEE Transactions on Industrial Informatics, vol. 18, no. 4, pp. 2796-2806, April 2022, doi: 10.1109/TII.2021.3103780..
[J086] Gaoyang Pang, Geng Yang*, Zhibo Pang*, “Review of Robot Skin: A Potential Enabler for Safe Collaboration, Immersive Teleoperation, and Affective Interaction of Future Collaborative Robots” in IEEE Transactions on Medical Robotics and Bionics, 2021, early access, doi: 10.1109/TMRB.2021.3097252..
[J085] O. Seijo, I. Val, M. Luvisotto and Z. Pang, "Clock Synchronization for Wireless Time-Sensitive Networking: A March From Microsecond to Nanosecond," in IEEE Industrial Electronics Magazine, doi: 10.1109/MIE.2021.3078071.
[J084] Yinlong Zhang, Wei Liang*, Mingze Yuan, Hongsheng He, Jindong Tan, Zhibo Pang, “Monocular Visual-Inertial and Robotic-Arm Calibration in a Unifying Framework”, IEEE/CAA Journal of Automatica Sinica, 2021, accepted
[J083] Ming Zhan, Zhibo Pang*, Kan Yu, Hong Wen, "Reverse Calculation-Based Low Memory Turbo Decoder for Power Constrained Applications," in IEEE Transactions on Circuits and Systems I: Regular Papers, 2021, early access, doi: 10.1109/TCSI.2021.3068623.
[J082] Z. V. Gbouna, G. Pang, G. Yang*, Z. Hou, H. Lv, Z. Yu, and Z. Pang, “User-Interactive Robot Skin with Large-Area Scalability for Safer and Natural Human-Robot Collaboration in Future Telehealthcare," in IEEE Journal of Biomedical and Health Informatics, vol. 25, no. 12, pp. 4276-4288, Dec. 2021, doi: 10.1109/JBHI.2021.3082563. [Cover Paper]
[J081] Tao Zhang*, Biyun Ding, Xin Zhao, Ganjun Liu, Zhibo Pang*, “LearningADD: Machine Learning based Acoustic Defect Detection in Factory Automation”, Journal of Manufacturing Systems, 2021, accepted.
[J080] Xiaolin Jiang, Michele Luvisotto, Zhibo Pang* and Carlo Fischione, "Reliable Minimum Cycle Time of 5G NR Based on Data-Driven Channel Characterization," in IEEE Transactions on Industrial Informatics, 2021, doi: 10.1109/TII.2021.3052922
[J079] Yu Liu*, Dapeng Lan, Zhibo Pang, Magnus Karlsson and Shaofang Gong, "Performance evaluation of containerization in edge-cloud computing stacks for industrial applications: a client perspective," in IEEE Open Journal of the Industrial Electronics Society, 2021, doi: 10.1109/OJIES.2021.3055901.
[J078] Kang B. Lee, Richard Candell, Hans-Peter Bernhard, Dave Cavalcanti, Zhibo Pang, Inaki Val, “Reliable, High-Performance Wireless Systems for Factory Automation”, NIST Interagency/Internal Report (NISTIR), No. 8317, Sep 18, 2020
[J077] Yu Liu*, Zhibo Pang*, Magnus Karlsson*, Shaofang Gong*, “Anomaly detection based on machine learning in IoT-based vertical plant wall for indoor climate control”, Building and Environment, Vol 183, 2020, doi: 10.1016/j.buildenv.2020.107212.
[J076] Fei Pan, Hong Wen, Xuesong Gao, Haibo Pu and Zhibo Pang*, "Clone Detection Based on BPNN and Physical Layer Reputation for Industrial Wireless CPS," in IEEE Transactions on Industrial Informatics, vol. 17, no. 5, pp. 3693-3702, May 2021, doi: 10.1109/TII.2020.3028120.
[J075] Honghao Lv, Geng Yang*, Huiying Zhou, Xiaoyan. Huang, Huayong Yang and Zhibo Pang, "Teleoperation of Collaborative Robot for Remote Dementia Care in Home Environments," in IEEE Journal of Translational Engineering in Health and Medicine, vol. 8, pp. 1-10, 2020, Art no. 1400510, doi: 10.1109/JTEHM.2020.3002384.
[J074] Wenzheng Heng, Geng Yang*, Gaoyang Pang, Zhiqiu Ye, Honghao Lv, Juan Du, Guodong Zhao and Zhibo Pang, “Fluid-Driven Soft CoboSkin for Safer Human-Robot Collaboration: Fabrication and Adaptation”, Advanced Intelligent Systems, 2020, [Cover Paper]
[J073] Gaoyang Pang, Geng Yang*, Wenzheng Heng, Zhiqiu Ye, Xiaoyan Huang, Hua-Yong, Yang, Zhibo Pang, "CoboSkin: Soft Robot Skin with Variable Stiffness for Safer Human-Robot Collaboration”, in IEEE Transactions on Industrial Electronics, 2020. , early access
[J072] Geng Yang, Zhibo Pang, M. Jamal Deen, Mianxiong Dong, Yuan-Ting Zhang, Nigel H. Lovell, Amir M. Rahmani, “Guest Editorial Enabling Technologies in Health Engineering and Informatics for the New Revolution of Healthcare 4.0”, IEEE Journal of Biomedical and Health Informatics, Vol 24, Iss 9, 2020
[J071] Geng Yang, Zhibo Pang*, M. Jamal Deen, Mianxiong Dong, Yuan-Ting Zhang, Nigel H. Lovell, Amir M. Rahmani, “Homecare Robotic Systems for Healthcare 4.0: Visions and Enabling Technologies”, IEEE Journal of Biomedical and Health Informatics, Vol 24, Iss 9, 2020 [Cover Paper]
[J070] Fengming Cui, Liang Ma, Guofeng Hou, Zhibo Pang, Yonghong Hou & Lefei Li *(2020) Development of smart nursing homes using systems engineering methodologies in industry 4.0, Enterprise Information Systems, 14:4, 463-479, DOI: 10.1080/17517575.2018.1536929
[J069] Yushan Li, Guangzhi Zhang, Zhibo Pang & Lefei Li* (2020) Continuum approximation models for joint delivery systems using trucks and drones, Enterprise Information Systems, 14:4, 406-435, DOI: 10.1080/17517575.2018.1536928
[J068] Tao Zhang*, Yangyang Shao, Yaqin Wu, Zhibo Pang*, Ganjun Liu, "Multiple Vowels Repair Based on Pitch Extraction and Line Spectrum Pair Feature for Voice Disorder," in IEEE Journal of Biomedical and Health Informatics, vol. 24, no. 7, pp. 1940-1951, July 2020, doi: 10.1109/JBHI.2020.2978103.
[J067] Songlin Chen, Zhibo Pang, Hong Wen*, Kan Yu, Tengyue Zhang, Yueming Lu, "Automated Labeling and Learning for Physical Layer Authentication Against Clone Node and Sybil Attacks in Industrial Wireless Edge Networks," in IEEE Transactions on Industrial Informatics, vol. 17, no. 3, pp. 2041-2051, March 2021, doi: 10.1109/TII.2020.2963962.
[J066] Xiaolin Jiang, Zhibo Pang*, Michele Luvisotto, Richard Candell, Dacfey Dzung, Carlo Fischione, "Delay Optimization for Industrial Wireless Control Systems Based on Channel Characterization," in IEEE Transactions on Industrial Informatics, vol. 16, no. 9, pp. 5855-5865, Sept. 2020, doi: 10.1109/TII.2019.2958708.
[J065] Ming Zhan, Zhibo Pang*, Dacfey Dzung, Michele Luvisotto, Kan Yu, Ming Xiao, "Towards High-Performance Wireless Control: $10^{-7}$ Packet Error Rate in Real Factory Environments," in IEEE Transactions on Industrial Informatics, vol. 16, no. 8, pp. 5554-5564, Aug. 2020, doi: 10.1109/TII.2019.2919653.
[J064] Wenzheng Heng, Gaoyang Pang, Feihong Xu, Xiaoyan Huang, Zhibo Pang, Geng Yang*, “Flexible Insole Sensors with Stably Connected Electrodes for Gait Phase Detection”, Sensors 2019, 19, 5197. https://doi.org/10.3390/s19235197
[J063] Huiying Zhou, Geng Yang*, Honghao Lv, Xiaoyan Huang, Huayong Yang and Zhibo Pang, "IoT-Enabled Dual-Arm Motion Capture and Mapping for Telerobotics in Home Care," in IEEE Journal of Biomedical and Health Informatics, vol. 24, no. 6, pp. 1541-1549, June 2020, doi: 10.1109/JBHI.2019.2953885. [Cover Paper]
[J062] Henrik Hellström, Michele Luvisotto; Roger N. Jansson, Zhibo Pang*; “Software-Defined Wireless Communication for Industrial Control: A Realistic Approach”, IEEE Industrial Electronics Magazine, 2019. DOI: 10.1109/MIE.2019.2942454,
[J061] Fei Pan, Zhibo Pang, Hong Wen*, Michele Luvisotto, Ming Xiao, Run-Fa Liao, Jie Chen, “Threshold-Free Physical Layer Authentication Based on Machine Learning for Industrial Wireless CPS”, IEEE Transactions on Industrial Informatics, Vol 15, Iss 2, 2019, DOI: 10.1109/TII.2019.2925418
[J060] Stefano Vitturi, Thilo Sauter, Zhibo Pang, “Real-Time Networks and Protocols for Factory Automation and Process Control Systems [scanning the issue]”, Proceedings of the IEEE, Vol 107, Iss 6, Page(s): 939-943, 2019. DOI: 10.1109/JPROC.2019.2915391
[J059] Yu Liu*; Kahin Akram Hassan; Magnus Karlsson; Zhibo Pang*; Shaofang Gong, "A Data-Centric Internet of Things Framework Based on Azure Cloud", IEEE Access, Volume: 7, Issue:1, Page(s): 53839-53858, 2019
[J058] Zheng Ma, Ming Xiao*, Yue Xiao, Zhibo Pang, H. Vincent Poor, Branka Vucetic, “High-Reliability and Low-Latency Wireless Communication for Internet of Things: Challenges, Fundamentals, and Enabling Technologies”, IEEE Internet of Things Journal, Year: Vol 6, Iss 5 2019, DOI:10.1109/JIOT.2019.2907245,
[J057] Zheng Ma, Ming Xiao, Yue Xiao, Zhibo Pang, H. Vincent Poor, Branka Vucetic, “Guest Editorial Special Issue on Low-Latency High-Reliability Communications for the IoT”, IEEE Internet of Things Journal, Year: Vol 6, Iss 5, 2019, DOI: 10.1109/JIOT.2019.2940392
[J056] Daswin de Silva, Zhibo Pang, Evgeny Osipov, Valeriy Vyatkin, “Guest Editorial: Special Section on Developments in Artificial Intelligence for Industrial Informatics”, IEEE Transactions on Industrial Informatics, Vol 16, Iss 6, Pages 3690-3692, 2019,
[J055] Ying Liu; Lin Zhang*; Yuan Yang; Longfei Zhou; Lei Ren; Fei Wang; Rong Liu; Zhibo Pang; M. Jamal Deen*, “A Novel Cloud-based Framework for the Elderly Healthcare Services Using Digital Twin”, IEEE Access, 2019, early access
[J054] Jiafu Wan; Min Xia; Jun Hong; Zhibo Pang; Bharat Jayaraman; Fangyang Shen, “IEEE Access Special Section Editorial: Key Technologies for Smart Factory of Industry 4.0”, IEEE Access, 2019 , Volume: 7 Pages: 17969 - 17974
[J053] Xiaolin Jiang, Zhibo Pang*, Ming Zhan, Dacfey Dzung, Michele Luvisotto, Carlo Fischione, “Packet Detection by a Single OFDM Symbol in URLLC for Critical Industrial Control: a Realistic Study”, IEEE Journal on Selected Areas in Communications, 2019, 37 (4), pp 0733-8716 . DOI: 10.1109/JSAC.2019.2898761
[J052] Michele Luvisotto, Zhibo Pang*, Dacfey Dzung, "High-Performance Wireless Networks for Industrial Control Applications: New Targets and Feasibility", Proceedings of the IEEE, Vol 107, Iss 6, Page(s): 1074-1093, 2019. DOI: 10.1109/JPROC.2019.2898993
[J051] Jia Deng; Gaoyang Pang; Zhiyu Zhang; Zhibo Pang; Huayong Yang; Geng Yang*, “cGAN based Facial Expression Recognition for Human-Robot Interaction”, IEEE Access, 2019
[J050] Geng Yang, Gaoyang Pang, Zhibo Pang*, Ying Gu, Matti Mäntysalo, Huayong Yang, “Non-invasive Flexible and Stretchable Wearable Sensors with Nano-based Enhancement for Chronic Disease Care”, IEEE Reviews in Biomedical Engineering, Vol. 12, Iss. 1, pp34-71, 2019.
[J049] Xiaolin Jiang, Zhibo Pang*, Michele Luvisotto, Fei Pan, Richard Candell, Carlo Fischione, “Using Large Data Set to Improve Wireless Communications: Latency, Reliability, and Security”, IEEE Industrial Electronics Magazine, Vol 13, Iss 1, pp6-12, 2019. DOI: 10.1109/MIE.2019.2893037
[J048] Jiafu Wan; Shenglong Tang; Di Li; Muhammad Imran; Chunhua Zhang*; Chengliang Liu; Zhibo Pang “Reconfigurable Smart Factory for Drug Packing in Healthcare Industry 4.0”, IEEE Transactions on Industrial Informatics, Vol 15, Iss: 1, 2019.
[J047] Dapeng Lan; Zhibo Pang*; Carlo Fischione; Yu Liu ; Amir Taherkordi; Frank Eliassen, "Latency Analysis of Wireless Networks for Proximity Services in Smart Home and Building Automation: The Case of Thread," in IEEE Access, vol. 7, pp. 4856-4867, 2019, doi: 10.1109/ACCESS.2018.2888939.
[J046] Lin F, Pang Z, Ma X, Gu Q.* User Access Management Based on Network Pricing for Social Network Applications. Sensors (Basel). 2018 Feb 24;18(2):664. doi: 10.3390/s18020664. PMID: 29495252; PMCID: PMC5855405.
[J044] Chen, F.; Deng, J.; Pang, Z.; Baghaei Nejad, M.; Yang, H.; Yang, G.* Finger Angle-Based Hand Gesture Recognition for Smart Infrastructure Using Wearable Wrist-Worn Camera. Appl. Sci. 2018, 8, 369. https://doi.org/10.3390/app8030369
[J043] Yang, G.; Lv, H.; Chen, F.; Pang, Z.; Wang, J.; Yang, H.; Zhang, J.* A Novel Gesture Recognition System for Intelligent Interaction with a Nursing-Care Assistant Robot. Appl. Sci. 2018, 8, 2349. https://doi.org/10.3390/app8122349
[J042] Fei Pan; Zhibo Pang; Ming Xiao; Hong Wen*; Run-Fa Liao, “Clone Detection based on Physical Layer Reputation for Proximity Service”, IEEE Access, Vol 7, Iss 1, 2018, Page 3948-3957
[J041] Gaoyang Pang, Jia Deng, Fangjinhua Wang, Junhui Zhang, Zhibo Pang, Geng Yang*, “Development of Flexible Robot Skin for Safe and Natural Human–Robot Collaboration”, Micromachines, 2018, 9, 576; doi:10.3390/mi9110576 [Cover Paper]
[J040] F. Pan, Z. Pang*, M. Luvisotto, M. Xiao and H. Wen, "Physical-Layer Security for Industrial Wireless Control Systems: Basics and Future Directions," in IEEE Industrial Electronics Magazine, vol. 12, no. 4, pp. 18-27, Dec. 2018, doi: 10.1109/MIE.2018.2874385.
[J039] Zhibo Pang, Heng Yuan, Yuan-Ting Zhang, Muthukumaran Packirisamy, “Guest Editorial: Health Engineering Driven by the Industry4.0 for Aging Society”, IEEE Journal of Biomedical and Health Informatics, Nov 2018, accepted
[J038] Feiyu Chen, Honghao Lv, Zhibo Pang, Junhui Zhang, Ying Gu, Huayong Yang, Geng Yang*, Yonghong Hou, “WristCam: A Wearable Sensor for Hand Trajectory Gesture Recognition and Intelligent Human-Robot Interaction”, IEEE Sensors Journal, 2018, accepted
[J037] Guodong Zhao, Muhammad Ali Imran, Zhibo Pang, Zhi Chen, Liying Li, “Towards Real-Time Control in Future Wireless Networks: Communication-Control Co-Design”, IEEE Communications Magazine, Vol. 57, Iss. 2, 2019. DOI: 10.1109/MCOM.2018.1800163
[J036] Xiaolin Jiang*, Hossein Shokri Ghadikolaei, Gabor Fodor, Eytan Modiano, Zhibo Pang, Michele Zorzi, and Carlo Fischione, “Low-latency Networking: Where Latency Lurks and How to Tame It”, Proceedings of the IEEE, 2018, DOI: 10.1109/JPROC.2018.2863960.
[J035] Ming Zhan, Zhibo Pang*, Ming Xiao, Michele Luvisotto, Dacfey Dzung, “Wireless High Performance Communications: Improving Effectiveness and Creating Ultrahigh Reliability with Channel Coding”, IEEE Industrial Electronics Magazine, Vol 12, Iss 3, 2018, 32-37. DOI: 10.1109/MIE.2018.2850661.
[J034] Jing Yue, Ming Xiao*, Zhibo Pang, “Distributed Fog Computing based on Batched Sparse Codes for Industrial Control”, IEEE Transactions on Industrial Informatics, Vol 14, Iss 10, 2018, 4683-4691,
[J033] Yu Liu, Zhibo Pang*, Gyorgy Dan, Dapeng Lan, Shaofang Gong, "A Taxonomy for the Security Assessment of IP-Based Building Automation Systems: The Case of Thread," in IEEE Transactions on Industrial Informatics, vol. 14, no. 9, pp. 4113-4123, Sept. 2018, doi: 10.1109/TII.2018.2844955.
[J032] Ming Zhan, Zhibo Pang*, Dacfey Dzung, Ming Xiao, “Channel Coding for High Performance Wireless Control in Critical Applications: Survey and Analysis”, IEEE Access, Vol. 6, 2018, pp 29648 – 29664. DOI: 10.1109/ACCESS.2018.2842231.
[J031] V. K. L. Huang, Z. Pang, C. A. Chen and K. F. Tsang, "New Trends in the Practical Deployment of Industrial Wireless: From Noncritical to Critical Use Cases," in IEEE Industrial Electronics Magazine, vol. 12, no. 2, pp. 50-58, June 2018, doi: 10.1109/MIE.2018.2825480.
[J030] Zhibo Pang, Geng Yang*, Ridha Khedri, Yuan-Ting Zhang, “Introduction to the Special Section: Convergence of Automation Technology, Biomedical Engineering and Health Informatics towards the Healthcare 4.0”, IEEE Reviews in Biomedical Engineering, Vol. 11, 2018 DOI: 10.1109/RBME.2018.2848518. [Cover Paper]
[J029] Geng Yang, Jia Deng*, Gaoyang Pang, Hao Zhang, Jiayi Li, Bin Deng, Zhibo Pang, Juan Xu, Mingzhe Jiang, Pasi Liljeberg, Haibo Xie, Huayong Yang, “An IoT-enabled Stroke Rehabilitation System based on Smart Wearable Armband and Machine Learning”, IEEE Journal of Translational Engineering in Health and Medicine, Vol 6, 2018. [Cover Paper]
[J028] D. Shrestha, Z. Pang* and D. Dzung, "Precise Clock Synchronization in High Performance Wireless Communication for Time Sensitive Networking," in IEEE Access, vol. 6, pp. 8944-8953, 2018, doi: 10.1109/ACCESS.2018.2805378.
[J027] Eva Azoidou, Zhibo Pang*, Yu Liu, Dapeng Lan, Gargi Bag, and Shaofang Gong, “Battery Lifetime Modeling and Validation of Wireless Building Automation Devices in Thread”, IEEE Transactions on Industrial Informatics, Vol. 14, Iss. 7, Page(s): 2869-2880, 2018, DOI: 10.1109/TII.2017.2773066
[J026] Ming Zhan, Zhibo Pang*, Ming Xiao and Hong Wen, “A state metrics compressed decoding technique for energy-efficient turbo decoder”, Journal on Wireless Communications and Networking, 20182018:152
[J025] Binbin Xie, Zhibo Pang*, Hui Zhu, Michele Luvisotto*, “Location aided commissioning of building automation devices enabled by high accuracy indoor positioning”, Journal of Industrial Information Integration, 2017, https://doi.org/10.1016/j.jii.2017.12.002
[J024] Hui Zhu, Zhibo Pang*, Binbin Xie, Michele Luvisotto*, “Real-time and Non-intrusive On-site Diagnosis for Commissioning Wireless Sensor and Actuator Networks in Building Automation”, Journal of Industrial Information Integration, 2017, https://doi.org/10.1016/j.jii.2017.12.003
[J023] Sumit Majumder, Emad. Aghayi, Moein Noferesti, Hamidreza Memarzadeh-Tehran, Tapas Mondal, Zhibo Pang, and M. Jamal Deen*, “Smart Homes for Elderly Healthcare—Recent Advances and Research Challenges”, Sensors, 2017, MDPI, 17, 2496; doi:10.3390/s17112496
[J022] Xiaolin Jiang*, Hossein Shokri-Ghadikolaei, Carlo Fischione, Zhibo Pang, “A Simplified Interference Model for Outdoor Millimeter Wave Networks”, ACM/Springer Mobile Networks & Applications (MONET), 2017
[J021] Hairong Yan*, Liu Jun, Pang Zhibo, Xie Yue, Haoru Su, “Mixed time-triggered and event-triggered industrial controller in IoT environment”, Journal of Industrial Information Integration, 2017, DOI: 10.1016/j.jii.2017.06.004
[J020] Michele Luvisotto, Zhibo Pang*, Dacfey Dzung, Ming Zhan Xiaolin Jiang, “Physical Layer Design of High Performance Wireless Transmission for Critical Control Applications”, IEEE Transactions on Industrial Informatics, Vol: 13, Issue:6, Page(s): 2844-2854, 2017, DOI: 10.1109/TII.2017.2703116
[J019] Zhibo Pang*; Michele Luvisotto; Dacfey Dzung, “Wireless High-Performance Communications: The Challenges and Opportunities of a New Target”, IEEE Industrial Electronics Magazine, 2017 Volume: 11, Issue: 3, Pages: 20 – 25. DOI: 10.1109/MIE.2017.2703603.
[J018] Shahid Mumtaz ; Ahmed Alsohaily; Zhibo Pang ; Ammar Rayes ; Kim Fung Tsang ; Jonathan Rodriguez, “Massive Internet of Things for Industrial Application: Addressing Wireless IIoT Connectivity Challenges and Ecosystem Fragmentation”, IEEE Industrial Electronics Magazine, Volume: 11, Issue: 1, March 2017 Page(s): 28 – 33. DOI: 10.1109/MIE.2016.2618724.
[J017] Di Li*, Zhenkun Zhai, Zhibo Pang, Valeriy Vyatkin, Chengliang Liu, “Synchronous-reactive Semantic Modelling and Verification for Function Block Networks”, IEEE Transactions on Industrial Informatics, Volume: 13, Issue:6, Page(s): 3389-3398, 2017, DOI: 10.1109/TII.2017.2698606
[J016] Michele Luvisotto*; Zhibo Pang; Dacfey Dzung, “Ultra High Performance Wireless Control for Critical Applications: Challenges and Directions”, IEEE Transactions on Industrial Informatics, 2017, Volume: 13, Issue: 3, Pages: 1448 - 1459, DOI: 10.1109/TII.2016.2617459
[J015] S. Bao, Hairong Yan*, Zhibo Pang, “A FPGA-Based Reconfigurable Data Acquisition System for Industrial Sensors” IEEE Transactions on Industrial Informatics, 2017, Volume: 13, Issue: 4, Pages: 1503 - 1512, DOI: 10.1109/TII.2016.2641462
[J014] Gargi Bag, Zhibo Pang*, Morgan Johansson, Xiaoyu Min, Shaoling Zhu, “Engineering Friendly Tool to Estimate Battery Life of a Wireless Sensor Node”, Journal of Industrial Information Integration, Elsevier, Volume 4, December 2016, Pages 8–14, https://doi.org/10.1016/j.jii.2016.11.001
[J013] Jue Shen, Baghaei-Nejad Majid, Li Xie, Jia Mao, Zhuo Zou, Zhibo Pang, Yi Feng, Lida Xu, Hannu Tenhunen, Li-Rong Zheng*, “Interactive UHF/UWB RFID Tag for Mass Customization”, Information Systems Frontiers, Springer, 2016, pp 1–14, doi:10.1007/s10796-016-9653-y
[J012] Zhibo Pang*, Lirong Zheng, Junzhe Tian, Sharon Kao-Walter, Elena Dubrova , Qiang Chen. “Design of a Terminal Solution for Integration of In-home Healthcare Devices and Services towards the Internet-of-Things”, Enterprise Information Systems, DOI:10.1080/17517575.2013.776118, Vol 9, Iss 1, 2015.
[J0112] Zhibo Pang*, Qiang Chen, Weili Han, Lirong Zheng. Value-centric design of the internet-of-things solution for food supply chain: Value creation, sensor portfolio and information fusion. Inf Syst Front 17, 289–319 (2015). https://doi.org/10.1007/s10796-012-9374-9
[J010] Jakob Branger, Zhibo Pang*, “From Automated Home to Integrated Sustainable, Healthy and Manufacturing Homes: A New Story Enabled by the Internet-of-Things and Industry 4.0”, Journal of Management Analytics (Taylor & Francis), DOI: 10.1080/23270012.2015.1115379 Volume 2, Issue 4, 2015, pages 314-332
[J009] Fang Zhao, Haiyong Luo*, Xuqiang Zhao, Zhibo Pang, “HYFI: Hybrid Floor Identification Based on Wireless Fingerprinting and Barometric Pressure”, IEEE Transactions on Industrial Informatics, DOI 10.1109/TII.2015.2491264
[J008] Hairong Yan*, Li Da Xu, Zhuming Bi, Zhibo Pang, Jie Zhang, Yong Chen, “An emerging technology – wearable wireless sensor networks with applications in human health condition monitoring”, Journal of Management Analytics (Taylor & Francis), vol2, Iss 2, 2015, DOI: 10.1080/23270012.2015.1029550
[J007] Kai Kang; Zhibo Pang ; Li Da Xu ; Liya Ma ; Cong Wang* “An Interactive Trust Model for Application Market of the Internet of Things”, IEEE Transactions on Industrial Informatics, Volume: 10, Issue: 2, DOI: 10.1109/TII.2014.2306799, 2014 , Page(s): 1516 - 1526
[J006] Hairong Yan*; Yan Zhang ; Zhibo Pang ; Li Da Xu, “Superframe Planning and Access Latency of Slotted MAC for Industrial WSN in IoT Environment”, IEEE Transactions on Industrial Informatics, Volume: 10, Issue: 2, DOI: 10.1109/TII.2014.2306776, 2014 , Page(s): 1242 - 1251
[J005] Qingping Chi ; Hairong Yan*; Chuan Zhang ; Zhibo Pang ; Li Da Xu , “A Reconfigurable Smart Sensor Interface for Industrial WSN in IoT Environment”, IEEE Transactions on Industrial Informatics, Volume: 10, Issue: 2, DOI: 10.1109/TII.2014.2306798, 2014 , Page(s): 1417- 1425
[J004] Yang, G. ; Xie, L. ; Mantysalo, M. ; Zhou, X. ; Pang Zhibo; Xu, L. ; Kao-Walter, S. ; Chen, Q. ; Zheng, L. “A Health-IoT Platform Based on the Integration of Intelligent Packaging, Unobtrusive Bio-Sensor and Intelligent Medicine Box”, IEEE Transactions on Industrial Informatics, 2014, DOI: 10.1109/TII.2014.2307795
[J003] Kan Yu, Zhibo Pang, Mikael Gidlund, Johan Åkerberg, and Mats Björkman , “REALFLOW: Reliable Real-Time Flooding-Based Routing Protocol for Industrial Wireless Sensor Networks”, International Journal of Distributed Sensor Networks (Hindawi), Volume 2014 (2014), Article ID 936379, 17 pages
[J002] Zhibo Pang*, Junzhe Tian, Qiang Chen. “Ecosystem-Driven Design of In-Home Terminals Based on Open Platform for the Internet-of-Things”. ICACT Transactions on Advanced Communications Technology (TACT), 2013,
[J001] Zhibo Pang*, Junzhe Tian, Qiang Chen. “Intelligent Packaging and Intelligent Medicine Box for Medication Management towards the Internet-of-Things”. ICACT Transactions on Advanced Communications Technology (TACT), 2013,
Peer-reviewed conference publications
[C055] Honghao Lyu, Zhibo Pang, Ming Xiao, Geng Yang, “Hardware-in-the-Loop Simulation for Evaluating
Communication Impacts on the Wireless-Network-Controlled Robots”, 48th Annual Conference of the IEEE Industrial Electronics Society (IECON2022), Oct 18-22, 2022, Brussels, Belgium
[C054] Sichao Zhang, Wei Liang, Yinlong Zhang, Zhibo Pang, “AGV Semantic Attack Detection Based on Hidden Markov Model”, 23rd IEEE International Conference on Industrial Technology (ICIT2022), 22 - 25 Aug, 2022, Shanghai, China
[C053] Tengyue Zhang, Hong Wen, Zhibo Pang, Huanhuan SonG, “CSI-Free Physical Layer Security against Eavesdropping Attack based on Intelligent Surface for Industrial Wireless”, 2021 17th IEEE International Conference on Factory Communication Systems (WFCS2021), June 9-11 2021, Linz, Austria.
[C052] Ming Zhan, Zhibo Pang, Kan Yu, D. Dzung, “Interleaver in Coded Short Packets Transmission: A Preliminary Result”, 2021 17th IEEE International Conference on Factory Communication Systems (WFCS2021), June 9-11 2021, Linz, Austria.
[C051] Ming Zhan, Kan Yu, Zhibo Pang, “Pulse Interference Resilience of Convolutional Codes in WirelessHP Physical Layer Protocols: Experiment in Real Factory Environments”, 1st International Conference on Industrial Artificial Intelligence (IAI2019), 2019, Shenyang, China
[C050] Huiying Zhou, Honghao Lv, Kang Yi, Zhibo Pang, Huayong Yang, Geng Yang, “An IoT-Enabled Telerobotic-Assisted Healthcare System Based on Inertial Motion Capture”, The IEEE International Conference on Industrial Informatics (INDIN2019), Helsinki, Finland, July 23-25, 2019
[C049] Wenzheng Heng, Gaoyang Pang, Zakka Vincent Gbouna, Zhibo Pang, Kang Yi, Huayong Yang, and Geng Yang, “Facile Fabrication of Highly Soft Tactile Sensor based on Porous Sponge with Geometry Effect on Sensing Characteristics”, IEEE International Flexible Electronics Technology Conference (IEEE IFETC2019), Vancouver BC, Canada, August 11-14, 2019
[C048] Songlin Chen, Zhibo Pang, Hong Wen, Kan Yu, and Tengyue Zhang “Physical Layer Authentication Schemes Against Clone Node and Sybil Attacks in Wireless Industrial Internet”, The 2nd IEEE International Conference on Industrial Internet (IEEE ICII2019), Orland, USA, Nov 11, 2019
[C047] Xiaolin Jiang, Michele Luvisotto, Zhibo Pang, and Carlo Fischione, “Latency Performance of 5G New Radio for Critical Industrial Control Systems”, The 24th IEEE Conference on Emerging Technologies and Factory Automation (ETFA2019), Zaragoza, Spain, September 10th - 13th, 2019
[C046] Qian Wang, He Chen, Yonghui Li, Zhibo Pang, Branka Vucetic, “Minimizing Age of Information for Real-Time Monitoring in Resource-Constrained Industrial IoT Networks”, The IEEE International Conference on Industrial Informatics (INDIN2019), Helsinki, Finland, July 23-25, 2019
[C0451] Jing Yue, Ming Xiao, Zhibo Pang, “Distributed BATS-based Schemes for Uplink of Industrial Internet of Things”, The 53rd IEEE International Conference on Communications (ICC2019),, 20-24 May 2019, Shanghai, China
[C044] Xiaolin Jiang, Zhibo Pang, Fei Pan, Roger N. Jansson, and Carlo Fischione, “Fundamental Constraints for Time-slotted MAC Design in Wireless High Performance: the Realistic Perspective of Timing”, The 44nd Annual Conference of IEEE Industrial Electronics Society (IECON2018), October 21-23, 2018, Washington DC, USA.
[C043] Fei Pan, Zhibo Pang, Michele Luvisotto, Xiaolin Jiangy, Roger N. Jansson, Ming Xiao, and Hong Wen, “Authentication Based on Channel State Information in Industrial Wireless Communications”, The 44nd Annual Conference of IEEE Industrial Electronics Society (IECON2018), October 21-23, 2018, Washington DC, USA
[C042] Xin Tong, Guodong Zhao, Muhammad A. Imrany, Zhibo Pang, Zhi Chen, “Minimizing Wireless Resource Consumption for Packetized Predictive Control in Real-Time Cyber Physical Systems”, IEEE International Conference on Communications (ICC2018), May 20-24, 2018, Kansas City, MO, USA
[C041] Guang Yang, Ming Xiao, Zhibo Pang, “Delay Analysis of Traffic Dispersion with Nakagami-m Fading in Millimeter-Wave Bands”, IEEE Wireless Communications and Networking Conference (WCNC2018), 15-18 April 2018. Barcelona, Catalonia, Spain
[C040] Binbin Xie, Zhibo Pang, Hui Zhu, Michele Luvisotto, “Location aided commissioning of building automation devices enabled by high accuracy indoor positioning”, The 5th International Conference on Enterprise Systems (ES2017), Sep 22-24, Beijing, China
[C039] Hui Zhu, Zhibo Pang, Binbin Xie, Michele Luvisotto, “Real-time and Non-intrusive On-site Diagnosis for Commissioning Wireless Sensor and Actuator Networks in Building Automation”, The 5th International Conference on Enterprise Systems (ES2017), Sep 22-24, Beijing, China
[C038] Heng Yuan, Jixing Zhang, Chen Zhang, Ning Zhang, Lixia Xu, Guodong Bian, Ruiyuan Li, Gangyuan Zhang, Pengcheng Fan, Jiancheng Fang, Zhibo Pang, Bo Li, Lisha Zheng, “A proposal of NV center in nanodiamond based magnetometer toward human neuron AP detection”, The 5th International Conference on Enterprise Systems (ES2017), Sep 22-24, Beijing, China
[C037] [invited paper] Zhibo Pang, Gargi Bag, Edith Egai, Victor Leung, “Native IP connectivity for Sensors and Actuators in Home Area Network”, EAI International Conference on Smart Grid Inspired Future Technologies (SmartGIFT 2016), May 19–20, 2016 | Liverpool, Great Britain
[C036] Hui Zhu, Zhibo Pang, Binbin Xie, Gargi Bag, “IETF IoT based Wireless Communication for Latency-sensitive Use Cases in Building Automation”, IEEE International Symposium on Industrial Electronics (ISIE2016), Santa Clara, USA, Jun 2016
[C035] Asad Khalid Raja, Zhibo Pang, “High Accuracy Indoor Localization for Robot-Based Fine-Grain Inspection of Smart Buildings”, IEEE International Conference on Industrial Technology (ICIT2016), Taipei, Taiwan, Mar 2016
[C034] Xiaolin Jiang, Hossein Shokri-Ghadikolaei, Carlo Fischione, and Zhibo Pang “A Simplified Interference Model for Outdoor Millimeter Wave Networks”, 9th EAI International Wireless Internet Conference (WiCON2016), Haikou, China, Dec 2016
[C033] Gargi Bag, Zhibo Pang, Morgan E. Johansson, Xiaoyu Min, Shaoling Zhu, “Experimental Evaluation of Multi-Standard Wireless Communication Platform for Building Automation”, 11th IEEE Conference on Industrial Electronics and Applications (ICIEA 2016), 5-7 June 2016 in Hefei, China
[C032] Jiawen Wang, Hairong Yan, Yue Xie, Zhibo Pang, “Research and implementation of groups positioning method for wireless sensor networking”, IEEE International Symposium on Industrial Electronics (ISIE2016), Santa Clara, USA, Jun 2016
[C031] Yue Xie, Hairong Yan, Zhibo Pang, “Mixed Time-triggered and Event-triggered Controller For Industrial IoT Applications”, IEEE International Conference on Industrial Technology (ICIT2016), Taipei, Taiwan, Mar 2016
[C030] Anlong Ming, Hong Luo, Yanchen Ren, Zhibo Pang, Kim-Fung Tsang, “An Energy Efficient Multi-dimension Model for System Control in Smart Environment Systems”, 14th IEEE International Conference on Industrial Informatics (INDIN2016), 18-21 July 2016, Futuroscope-Poitiers, France
[C029] Jia Wang, Asad Raja, Zhibo Pang, ”Prototyping and Experimental Comparison of IR-UWB based High Precision Localization Technologies”, IEEE Smart World Congress 2015, Beijing, China, DOI: 10.1109/UIC-ATC-ScalCom-CBDCom-IoP.2015.216
[C028] Jia Wang, Zhibo Pang, Gargi Bag, Morgan E. Johansson,"RESTful Information Exchange among Engineering Tools for Wireless Home Automation Devices", The 2015 International Conference on Computer, Information, and Telecommunication Systems, CITS 2015, Gijon, Spain
[C027] Jia Wang, Zhibo Pang, Cheng Pang, Valeriy Vyatkin, “Industry-Friendly Engineering Tools for Wireless Home Automation Devices”, INDIN 2015 IEEE International Conference on Industrial Informatics, Cambridge, UK, July2015
[C026] Zhibo Pang, Yuxin Cheng, Morgan E. Johansson, Gargi Bag, “ Preliminary Study on Industry-Friendly and Native-IP Wireless Communications for Building Automation”, International Conference on Industrial Networks and Intelligent Systems (INISCom2015), Mar 2015
[C025] Zhibo Pang, Yuxin Cheng, Morgan E. Johansson, Gargi Bag, “Preliminary Study on Wireless Home Automation Systems with Both Cloud-Based Mode and Stand-Alone Mode”, 13th IEEE International Conference on Ubiquitous Computing and Communications (IUCC2014), Dec 2014
[C024] Bruno Silva, Zhibo Pang, Johan Åkerberg, Jonas Neander, Gerhard Hancke, “Positioning Infrastructure for Industrial Automation Systems based on UWB Wireless Communication”, The 40th Annual Conference of IEEE Industrial Electronics Society (IECON 2014), Dallas, USA, Oct 2014
[C023] Denis Kleyko, Evgeny Osipov, Sandeep Patil, Valeriy Vyatkin, Zhibo Pang, “Methodology of Implementing Distributed Function Block Applications using TinyOS WSN nodes”, 19th IEEE International Conference on Emerging Technologies and Factory Automation (ETFA'2014) , Barcelona, Spain, September 2014.
[C022] Zhibo Pang, “Business-Technology Co-Design on Industrial Internet-of-Things”, IEEE Conference on Enterprise Systems (ICES2014), Shanghai, China. Aug 2014 Invited Plenary Speech
[C021] Bruno Silva, Zhibo Pang, Johan Åkerberg, Jonas Neander, Gerhard Hancke, “Experimental Study of UWB-based High Precision Localization for Industrial Applications”, The 2014 IEEE International Conference on Ultra-Wideband (ICUWB 2014), Paris, France, Sep 2014
[C020] Zhibo Pang, “Research on the Industrial Internet-of-Things for Sustainability”, 2014 Low Carbon Earth Summit (LCES2014), Xi’an China, Aug 2013
[C019] Zhibo Pang, Qiang Chen; Lirong Zheng, Elena Dubrova. “An In-home Medication Management Solution Based on Intelligent Packaging and Ubiquitous Sensing”. International Conference on Advanced Communications Technology (ICACT). Jan 2013, Pyeongchang, Korea. [Outstanding Paper Award].
[C018] Zhibo Pang, Kan Yu, Johan Åkerberg, Mikael Gidlund, “An RTOS-based Architecture for Industrial Wireless Sensor Network Stacks with Multi-Processor Support”, IEEE International Conference on Industrial Technology (ICIT2013), Feb 2013, Cape Town, South Africa. doi: 10.1109/ICIT.2013.6505847.
[C017] Zhibo Pang, Qiang Chen; Junzhe Tian, Lirong Zheng, Elena Dubrova. “Ecosystem Analysis in the Design of Open Platform-based In-Home Healthcare Terminals towards the Internet-of-Things”. International Conference on Advanced Communications Technology (ICACT). Jan 2013, Pyeongchang, Korea
[C016] Kan Yu, Tao Zheng, Zhibo Pang, Mikael Gidlund, Johan Åkerberg, Mats Björkman, “Reliable Flooding-based Downlink Transmissions for Industrial Wireless Sensor and Actuator Networks”, IEEE International Conference on Industrial Technology (ICIT2013), Feb 2013, Cape Town, South Africa. DOI: 10.1109/ICIT.2013.6505873.
[C015] Zhibo Pang, Qiang Chen, Lirong Zheng. “Content-Extraction-Based Compression of Acceleration Data for Mobile Wireless Sensors”, IEEE Sensors Conference 2012, Oct 2012, Taipei, Taiwan.
[C014] Zhibo Pang, Qiang Chen, Lirong Zheng, "Scenario-based Design of Wireless Sensor System for Food Chain Visibility and Safety”, Advances In Computer, Communication, Control and Automation. Lecture Notes in Electrical Engineering, 2012, Volume 121, 541-548, DOI: 10.1007/978-3-642-25541-0_69.
[C013] Jie Gao, Zhibo Pang, Qiang Chen, Lirong Zheng, “Interactive Packaging Solutions Based on RFID Technology and Controlled Delamination Material”, The 2010 IEEE International Conference on RFID, April 2010, pp158-165, Florida, USA.
[C012] Zhibo Pang, Jun Chen, Zhi Zhang, Qiang Chen, Lirong Zheng, "Global Fresh Food Tracking Service Enabled by Wide Area Wireless Sensor Network", IEEE Sensors Applications Symposium (SAS-2010), pp6-9, Feb 2010, Limerick, Ireland.
[C011] Ning Ma, Zhonghai Lu, Zhibo Pang, Lirong Zheng, “System-Level Exploration of Mesh-based NoC Architectures for Multimedia Applications”, 2010 IEEE International SOC Conference, pp 99-104, Sep. 2010, Las Vegas, USA.
[C010] Sarmiento M, David; Zhibo Pang; Sanchez, Mario F.; Qiang Chen; Tenhunen, Hannu; Li-Rong Zheng; “Mobile wireless sensor system for tracking and environmental supervision”, IEEE Inte. Symp. on Industrial Electronics (ISIE2010), pp470-477, Jul. 2010, Bari, Italy.
[C009] Zhi Zhang, Zhonghai Lu, Zhibo Pang, Xiaolang Yan, Qiang Chen, Li-Rong Zheng, “A Low Delay Multiple Reader Passive RFID System Using Orthogonal TH-PPM IR-UWB”, 19th Inte.l Conf. on Computer Communications and Networks (ICCCN2010), pp1-6, Aug. 2010, Zurich, Switzerland.
[C008] Zhibo Pang, Jun Chen, David Sarmiento M., Zhi Zhang, Jie Gao, Qiang Chen, Lirong Zheng, “Mobile and Wide Area Deployable Sensor System for Networked Services”, IEEE Sensors Conference 2009, pp1396 – 1399, Oct 2009, Christchurch, New Zealand.
[C007] Zhibo Pang, Qiang Chen, Lirong Zheng, "A Pervasive and Preventive Healthcare Solution for Medication Noncompliance and Daily Monitoring", 2nd International Symposium on Applied Sciences in Biomedical and Communication Technologies (ISABEL2009), pp1-6, Nov 2009, Bratislava, Slovak Republic.
[C006] Ning Ma, Zhibo Pang, Jun Chen, Hannu Tenhunen, Li-Rong Zheng, “A 5Mgate/414mW Networked Media SoC in 0.13um CMOS with 720p Multi-Standard Video Decoding”, IEEE Asian Solid-State Circuits Conference (ASSCC), pp385-388, Nov 2009, Taipei, Taiwan.
[C005] Zhibo Pang, Jun Chen, Zhi Zhang, Qiang Chen, Lirong Zheng, “A Global Fresh Food Tracking Service Based on Novel Wireless Sensor and RFID Technologies”, The 6th annual International New Exploratory Technologies Conference (NEXT2009), Oct 2009 Shanghai China.
[C004] Zhi Zhang, Zhibo Pang, Jun Chen, Qiang Chen, Hannu Tenhunen, Li-Rong Zheng, Xiaolang Yan, “Two-Layered Wireless Sensor Networks for Warehouses and Supermarkets”, 3rd Inte.l Conf. on Mobile Ubiquitous Computing, Systems, Technologies (UBICOMM 2009),pp220-224, Oct. 2009, Malta.
[C003] Jun Chen, Zhibo Pang, Zhi Zhang, Jie Gao, Qiang Chen, Lirong Zheng, “A Novel Acceleration Data Compression Scheme for Wireless Sensor Network Application in Fresh Food Tracking System”, 9th Inte.l Conf. on Electronic Measurement & Instruments (ICEMI2009), pp3.1- 3.5, Aug. 2009, Beijing, China.
[C002] Zhibo Pang, Majid Baghaei-Nejad, “TouchMe System - RFID Solution for Interactive Package with Mediated Service”, RFID Nordic EXPO and Conference 2008, winning the first place award in scholarship competition, Oct. 2008, Stockholm, Sweden.
[C001] Ning Ma, Zhibo Pang, Hannu Tenhunen, Li-Rong Zheng, “An ASIC-Design-Based Configurable SOC Architecture for Networked Media”, IEEE Inte. Symp. on System-on-Chip (SOC2008),pp1-4, Oct. 2008 Tampere Finland.
Non-peer-reviewed publications or reports
[R05] Karl Montgomery, Richard Candell, Yongkang Liu, Mohamed Hany, “Wireless User Requirements for the Factory Workcell”, NIST Advanced Manufacturing Series 300-8, National Institute of Standards and Technology (NIST) of U.S. Department of Commerce, Oct 2020, DOI: 10.6028/NIST.AMS.300-8r1 [as acknowledged contributor]
[R04] Michele Luvisotto; Zhibo Pang; Dacfey Dzung, “A new generation of industrial wireless communication”, ABB Review, Issue 2, 2020
[R03] Michele Luvisotto; Zhibo Pang; Roger N. Jansson, “Fast prototyping of industrial wireless communications”, ABB Review, Issue 2, 2020
[R02] Yu Liu, Kahin Akram Hassan, Magnus Karlsson, Zhibo Pang and Shaofang Gong, “Ett datacentrerat ramverk för alla typer av IoTnoder” (EN: A data-centric framework for all types of IoT nodes), ELEKTRONIK TIDNINGEN (a Swedish popular science magazine), Issue 6, 2019, page 32-34, link
[R01] Richard Candell, Mohamed Hany, Kang B. Lee, Yongkang Liu, Jeanne Quimby, Kate Remley, “Guide to Industrial Wireless Systems Deployments”, NIST Advanced Manufacturing Series 300-4, National Institute of Standards and Technology (NIST) of U.S. Department of Commerce, April 2018, DOI: 10.6028/NIST.AMS.300-4 [as acknowledged contributor]
[1] Only one item is listed here if the patent application is filed or granted in multiple countries using different numbers. Some of the items are hidden as they are still in the confidential stage of the patent lifecycle.
