Body area network - Knowledge

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Title Cited by Year An Efficient Method to Improve WBAN Security R Khalilian, A Rezai, E Abedini Advanced Science and Technology Letters (ASTL) 64 (No. 11; ISSN. 2287-1233 … 25 2014 Secure Wireless Body Area Network (WBAN) Communication Method Using New Random Key Management Scheme R Khalilian, A Rezai, F Mesrinejad International Journal of Security and Its Applications (IJSIA) Scopus 10 (11 … 12 2016 Wireless Body Area Network (WBAN) Applications Necessity in Real Time Healthcare R Khalilian, A Rezai 13th IEEE Princeton Integrated STEM (Science, Technology, Engineering … 10 2022 Cloud Computing R Kalilian, A Rezai, M Mahdavi 2024 A new Efficient Adjustable Current Pulse Power Supply (ACPS) in the Wireless Body Area Network (WBAN) Khalilian, Reza, Rezai, Abdalhossein, Gharavi, Arash, Zafari, Mehdi 1st International Conference of Ideas on Electrical Engineering (ICNIEE2024 … 2024 Breast Cancer Diagnosis by Phased Array RADAR (PAR) on Real Time Wireless Body Area Networks (WBANs) Platform Khalilian, Reza, Rezai, Abdalhossein 1st International Conference of Ideas on Electrical Engineering (ICNIEE2024 … 2024 Intelligent Transportation System (ITS) Using Internet of Things (IoT) Khalilian, Reza, Rezai, Abdalhossein, Talakesh, SM Reza 14th IEEE International Conference on Information and Knowledge Technology … 2023 A New Biomedical Signal Processor (BSP) Architecture for Energy Efficient in Wireless Body Area Networks (WBANs) R Khalilian, A Rezai International Conference on New Researches and Technologies in Electrical … 2023 An Eco-Friendly Cosmopolitan (EFC) by Recycling Scientific/Industrial Towns (RSITs) Khalilian, Reza, Rezai, Abdalhossein, Talakesh, SM Reza 14th IEEE International Conference on Information and Knowledge Technology … 2023 Human Brain Mapping by Electroencephalogram (EEG) in Wireless Body Area Network (WBAN) with Brain Computing Interface (BCI) on Metaverse via Artificial Intelligent … R Khalilian, A Rezai The 6th meeting of the interdisciplinary health research network with the … 2023 A New Platform of WBAN in Real Time Tele Medicine and Healthcare Ecosystems to Manage the Covid-19 R Khalilian, A Rezai Academic Journal, Journal of Biomedical Physics and Engineering, 5th Shiraz … 2023 X Band Exciter R Khalilian, H Emami, M Moradi ISBN: 978-622-94444-4-3, Gohar Gooya Publications 1, 163 2023 Elements of Information Theory (and Coding 1) R Khalilian, A Hatam, S Nasri

239:, now used for purposes such as monitoring traffic, crops, infrastructure, and health. The body area network field is an interdisciplinary area which could allow inexpensive and continuous health monitoring with real-time updates of medical records through the Internet. A number of intelligent physiological sensors can be integrated into a wearable wireless body area network, which can be used for computer-assisted rehabilitation or early detection of medical conditions. This area relies on the feasibility of implanting very small biosensors inside the human body that are comfortable and that don't impair normal activities. The implanted sensors in the human body will collect various physiological changes in order to monitor the patient's health status no matter their location. The information will be transmitted wirelessly to an external processing unit. This device will instantly transmit all information in real time to the doctors throughout the world. If an emergency is detected, the physicians will immediately inform the patient through the computer system by sending appropriate messages or alarms. Currently, the level of information provided and energy resources capable of powering the sensors are limiting. While the technology is still in its primitive stage it is being widely researched and once adopted, is expected to be a breakthrough invention in 1388:

National Conference on Electrical Engineering of Majlesi (NCEEM), Isfahan … 2016 A New Method for Energy Efficient in Wireless Body Area Network (WBAN) R Khalilian, A Rezai, E Abedini Iran's Electrical Engineering Student Conference, International Sharif … 2014 WBAN Security Improvement in a Real Time Healthcare and Medical Ecosystem R Khalilian, A Rezai, F Mesrinejad, E Abedini Mechatronic Systems Engineering and Telecommunication Systems (MISMEC … 2013 E-Commerce Security Protocols as a Dynamic Code Tokens R Khalilian, MR Moslehi Science and Culture University (ACECR IUT) 2011 RFID Smart Card and Contactless Reader (Terminal) R Khalilian, V Amir Shahid Rajaee Technical and Engineering College 2008

40: 227:(WPAN) technologies to implement communications on, near, and around the human body. About six years later, the term "BAN" came to refer to systems where communication is entirely within, on, and in the immediate proximity of a human body. A WBAN system can use WPAN wireless technologies as gateways to reach longer ranges. Through gateway devices, it is possible to connect the wearable devices on the human body to the internet. This way, medical professionals can access patient data online using the internet independent of the patient location. 397:: Pervasive sensing devices are subject to inherent communication and hardware constraints including unreliable wired/wireless network links, interference and limited power reserves. This may result in erroneous datasets being transmitted back to the end user. It is of the utmost importance especially within a healthcare domain that all sensor readings are validated. This helps to reduce false alarm generation and to identify possible weaknesses within the hardware and software design. 414:

are resource-constrained in terms of power, memory, communication rate and computational capability, security solutions proposed for other networks may not be applicable to WBANs. Confidentiality, authentication, integrity, and freshness of data together with availability and secure management are the security requirements in WBAN. The IEEE 802.15.6 standard, which is latest standard for WBAN, tried to provide security in WBAN. However, it has several security problems.

403:: Data residing on multiple mobile devices and wireless patient notes need to be collected and analysed in a seamless fashion. Within body area networks, vital patient datasets may be fragmented over a number of nodes and across a number of networked PCs or Laptops. If a medical practitioner's mobile device does not contain all known information then the quality of patient care may degrade. 370:

individual transmitter licenses. Usage of the 2360–2390 MHz frequencies are restricted to indoor operation at health-care facilities and are subject to registration and site approval by coordinators to protect aeronautical telemetry primary usage. Operation in the 2390–2400 MHz band is not subject to registration or coordination and may be used in all areas including residential.

480:: Users may require different levels of monitoring, for example those at risk of cardiac ischemia may want their WBANs to function constantly, while others at risk of falls may only need WBANs to monitor them while they are walking or moving. The level of monitoring influences the amount of energy required and the life cycle of the BAN before the energy source is depleted. 218:, or may be accompanied devices which humans can carry in different positions, such as in clothes pockets, by hand, or in various bags. Devices are becoming smaller, especially in body area networks. These networks include multiple small body sensor units (BSUs) and a single central unit (BCU). Despite this trend, decimeter (tab and pad) sized smart 446:: The sensors used in WBAN would have to be low on complexity, small in form factor, light in weight, power efficient, easy to use and reconfigurable. Further, the storage devices need to facilitate remote storage and viewing of patient data as well as access to external processing and analysis tools via the 413:

data is only derived from each patient's dedicated WBAN system and is not mixed up with other patient's data. Further, the data generated from WBAN should have secure and limited access. Although security is a high priority in most networks, little study has been done in this area for WBANs. As WBANs

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Elements of … 2023 BAES Token in Wireless Body Area Network for Real Time Healthcare Ecosystem R Khalilian, A Rezai, F Mesrinejad The 9th International Conference on Health, Treatment and Health Promotion … 2022 An Overview on the Wireless Body Area Networks as a Mater Platform by Value Management

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Engineer Reza Khalilian (SCOPUS:57193996763) (ORCiD: 0000-0001-5936-8596) (WOS: ACO-0524-2022) PhD, MSc Engineer of ICT and Electronics, Author, Research As, Tour Guide, Technical College Teacher Verified email at jdeihe.ac.ir - Homepage Healthcare EcosystemsWBANTelemedicineAI IoTCancer Prevention

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Gohar Gooya … 2021 Investigation, Design and Improvement Security of Wireless Body Area Networks (WBANs) R Khalilian, A Rezai, F Mesrinejad Master Thesis, Islamic Azad University of Majlesi 2016 Security Assessment of Proposed Wireless Body Area Network (WBAN) R Khalilian, A Rezai, F Mesrinejad

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The 2360–2390 MHz frequency range is available on a secondary basis. The FCC will expand the existing Medical Device Radiocommunication (MedRadio) Service in Part 95 of its rules. MBAN devices using the band will operate under a 'license-by-rule' basis which eliminates the need to apply for

456:: Sensors' activation policy should be determined to optimizing the trade-off between the BAN's power consumption versus the probability of patient's health state mis-classification. High power consumption often results in more accurate observations on the patient's health state and vice versa. 365:

The FCC has approved the allocation of 40 MHz of spectrum bandwidth for medical BAN low-power, wide-area radio links at the 2360–2400 MHz band. This will allow off-loading MBAN communication from the already saturated standard Wi-Fi spectrum to a standard band.

486:: The WBAN needs to be wearable, lightweight and non intrusive. It should not alter or encumber the user's daily activities. The technology should ultimately be transparent to the user i.e., it should perform its monitoring tasks without the user realising it. 468:: The wireless link used for body sensors should reduce the interference and increase the coexistence of sensor node devices with other network devices available in the environment. This is especially important for large scale implementation of WBAN systems. 492:: The performance of the WBAN should be consistent. Sensor measurements should be accurate and calibrated, even when the WBAN is switched off and switched on again. The wireless links should be robust and work under various user environments. 300:

Other applications of this technology include sports, military, or security. Extending the technology to new areas could also assist communication by seamless exchanges of information between individuals, or between individuals and machines.

385:: Data generated and collected through BANs can play a key role in the patient care process. It is essential that the quality of this data is of a high standard to ensure that the decisions made are based on the best information possible 329:) to help identify the location of the monitored individual and some form of communication, to transmit vital sign and motion readings to medical practitioners or care givers. A typical body area network kit will consist of sensors, a 222:

still play an important role. They act as data hubs or gateways and provide a user interface for viewing and managing BAN applications on the spot. The development of WBAN technology started around 1995 around the idea of using

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for Real Time Telemedicine and Healthcare Monitoring Ecosystem R Khalilian, A Rezai, R Kelishadi 1st International Telemedicine Conference, Medical Sciences University of … 2022 RFID Smart Card (1) R Khalilian, V Amir, F Goli

474:: Today's consumers expect low cost health monitoring solutions which provide high functionality. WBAN implementations will need to be cost optimized to be appealing alternatives to health conscious consumers. 462:: People might consider the WBAN technology as a potential threat to freedom if the applications go beyond "secure" medical usage. Social acceptance would be key to this technology finding a wider application. 1130: 1034: 259:

Initial applications of BANs are expected to appear primarily in the healthcare domain, especially for continuous monitoring and logging vital parameters of patients with

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Ullah, Sana; Higgins, Henry; Braem, Bart; Latre, Benoit; Blondia, Chris; Moerman, Ingrid; Saleem, Shahnaz; Rahman, Ziaur & Kwak, Kyung (2010).

768: 772: 1076: 957: 1469:"Mobile Health: Concepts, Initiatives and Applications", First Book (in Portuguese) about using Wireless Technology to assist Healthcare 836: 742: 409:: Considerable effort would be required to make WBAN transmission secure and accurate. It would have to be made sure that the patient 235:

The rapid growth in physiological sensors, low-power integrated circuits, and wireless communication has enabled a new generation of

214:), is a wireless network of wearable computing devices. BAN devices may be embedded inside the body as implants or pills, may be 169: 1260:

Miller, Daniel; Zhou, Zhengyuan; Bambos, Nicholas; Ben-Gal, Irad (2018). "Sensing-Constrained Power Control in Digital Health".

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A BAN in place on a patient can alert the hospital, even before they have a heart attack, through measuring changes in their

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Ullah, S.; Higgins, H.; Braem, B.; Latre, B.; Blondia, C.; Moerman, I.; Saleem, S.; Rahman, Z.; Kwak, K. S. (2012).

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A BAN on a patient with diabetes could auto inject insulin through a pump, as soon as their insulin level declines.

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O'Donovan, Tony; O'Donoghue, John; Sreenan, Cormac; Sammon, David; O'Reilly, Philip; O'Connor, Kieran A. (2009).

391:: As BANs generate large volumes of data, the need to manage and maintain these datasets is of utmost importance. 224: 1321: 750:. In ICC 2019-2019 IEEE International Conference on Communications (ICC), pp. 1-6. IEEE. 2019. Archived from 1144: 743:

Geller, T., David, Y. B., Khmelnitsky, E., Ben-Gal, I., Ward, A., Miller, D., & Bambos, N. (2019, May).

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Toorani, Mohsen (2015). "On Vulnerabilities of the Security Association in the IEEE 802.15.6 Standard".

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Proceedings of the 3d International ICST Conference on Pervasive Computing Technologies for Healthcare

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Lamanna, Leonardo; Cataldi, Pietro; Friuli, Marco; Demitri, Christian; Caironi, Mario (January 2023).

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Movassaghi, Samaneh; Abolhasan, Mehran; Lipman, Justin; Smith, David; Jamalipour, Abbas (2014).

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Gohar Gooya … 2021 Wireless Body Area Network (WBAN) (1) R Kalilian, A Rezai, F Mesrinejad

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M. R. Yuce (2010). "Implementation of wireless body area networks for healthcare systems".

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Vierhout, P. a. M.; Konstantas, D.; Bults, Richard G. A.; Jones, Valerie M. (2001-09-18).

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Chen, Min; Gonzalez, Sergio; Vasilakos, Athanasios; Cao, Huasong; Leung, Victor (2010).

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Small-scale computer network to connect devices around a human body, typically wearables

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Garcia, P. (December 2011). "A Methodology for the Deployment of Sensor Networks".

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M. R. Yuce & J. Y. Khan (2011). Yuce, Mehmet R & Khan, Jamil (eds.).

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sensors, have been developed. Other sensors such as a blood pressure sensor,

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Ubiquitous Computing Smart Devices, Smart Environments and Smart Interaction

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Wireless Body Area Networks: Technology, Implementation, and Applications

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Video of a short talk by Cardiologist Eric Topol about Wireless medicine

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Gohar Gooya … 2021 E-Commerce (1) R Khalilian, MR Moslehi, E Khalilian

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A BAN can be used, to learn the underlying health state transitions and

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Healthcare Sensor Networks Challenges Toward Practical Implementation

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https://ketab.ir/book/682938a3-7130-4ab7-8830-8437e1abeea0

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https://ketab.ir/book/396dbafc-22c3-4056-accd-074efe64c758

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https://ketab.ir/book/37011d8c-5536-4eb3-9a64-0a45fd0973fa

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device interaction. Further, the systems would have to be

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Problems with the use of this technology could include:

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A typical BAN or BSN requires vital sign monitoring

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IEEE Transactions on Knowledge and Data Engineering

1322:"A Context Aware Wireless Body Area Network (BAN)" 533:"IEEE 802.15 WPAN Task Group 6 Body Area Networks" 309:The latest international standard for BANs is the 1475: 216:surface-mounted on the body in a fixed position 1262:2018 Annual American Control Conference (ACC) 420:: WBAN systems would have to ensure seamless 163: 767:: CS1 maint: multiple names: authors list ( 918: 771:) CS1 maint: numeric names: authors list ( 170: 156: 1423: 1255: 1253: 1223: 932: 803: 705:IEEE Communications Surveys and Tutorials 645: 582: 357:for BSN interface are under development. 1216:Financial Cryptography and Data Security 738: 736: 734: 1213: 701:"Wireless Body Area Networks: A Survey" 1476: 1300: 1250: 914: 912: 834: 432:etc. to promote information exchange, 1337:10.4108/ICST.PERVASIVEHEALTH2009.5987 1037:from the original on January 17, 2023 828: 731: 1195:from the original on 17 January 2023 958:"Body Area Networks for Healthcare" 909: 513:Physiological Signal Based Security 13: 1391: 361:Wireless communication in the U.S. 14: 1510: 1457: 921:Sensors and Actuators A: Physical 341:. 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CRC Press. 19 April 2016. 887:10.1515/bmte.2002.47.s1a.365 325:, motion detectors (through 304: 7: 496: 243:, leading to concepts like 10: 1515: 1404:Journal of Medical Systems 563:Journal of Medical Systems 230: 192:wireless body area network 18: 1416:10.1007/s10916-010-9571-3 1270:10.23919/ACC.2018.8431675 943:10.1016/j.sna.2010.06.004 656:10.1007/s11036-010-0260-8 575:10.1007/s10916-010-9571-3 424:across standards such as 208:medical body area network 190:), also referred to as a 237:wireless sensor networks 122:Municipal wireless (MWN) 835:Poslad, Stefan (2009). 144:Interplanetary Internet 1484:Biological engineering 1264:. pp. 4213–4220. 1102:"Body Sensor Networks" 990:Cite journal requires 805:10.1002/admt.202200731 490:Consistent performance 484:Constrained deployment 21:building area networks 757:on February 4, 2020. 19:Do not confuse with 1489:Wireless networking 478:Constant monitoring 454:Energy vs. accuracy 200:body sensor network 117:Metropolitan (MAN) 1499:Upcoming products 1279:978-1-5386-5428-6 1243:978-3-662-48050-2 848:978-0-470-03560-3 503:Energy harvesting 395:Sensor validation 184:body area network 180: 179: 1506: 1494:Wearable devices 1453: 1427: 1363: 1362: 1360: 1359: 1353: 1326: 1317: 1311: 1310: 1298: 1292: 1291: 1257: 1248: 1247: 1227: 1211: 1205: 1204: 1202: 1200: 1173: 1167: 1166: 1164: 1163: 1148: 1142: 1141: 1139: 1138: 1123: 1117: 1116: 1114: 1113: 1098: 1092: 1091: 1089: 1088: 1079:. 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