5G网络技术在医疗领域的应用前景
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摘要
阐述5G网络技术内涵、基本性能及核心技术,探讨5G网络下的可穿戴医疗设备远程监控、诊断等方面应用前景,指出5G网络技术将成为推动虚拟现实技术大规模应用于医学的关键因素。
The paper elaborates on the technical connotation, essential performance and core technology of 5G networks technology and discusses the application prospect of remote monitoring and diagnostics through wearable medical devices under support of 5G networks, etc. It points out that 5G network technology will be the key factor to promote the large-scale application of Virtual Reality(VR) in the medical field.
The paper elaborates on the technical connotation, essential performance and core technology of 5G networks technology and discusses the application prospect of remote monitoring and diagnostics through wearable medical devices under support of 5G networks, etc. It points out that 5G network technology will be the key factor to promote the large-scale application of Virtual Reality(VR) in the medical field.
引文
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3 Wang L, Wang Y, Ding Z, et al. Cell Selection Game for Densely-deployed Sensor and Mobile Devices in 5G Networks Integrating Heterogeneous Cells and the Internet of Things[J]. Sensors(Basel), 2015, 15(9):24230-24256.
4 You I, Sharma V, Atiquzzaman M, et al. GDTN:genome-based delay tolerant network formation in heterogeneous5G using inter-UA collaboration[J]. PLoS One, 2016,11(12):e167913.
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7 Chih-Lin I, Han S, Xu Z, et al. 5G:rethink mobile communications for 2020+[EB/OL].[2018-09-10]. http://europepmc. org/abstract/MED/26809577.
8 Cui H, Yao S. Key Technology and Quantity Control of Wearable Medical Devices[J]. Zhongguo Yi Liao Qi Xie Za Zhi, 2015, 39(2):113-117,121.
9 Khan Y, Ostfeld A E, Lochner C M, et al. Monitoring of Vital Signs with Flexible and Wearable Medical Devices[J]. Adv Mater, 2016, 28(22):4373-4395.
10 Voss T J, Subbian V, Beyette F J. Feasibility of Energy Harvesting Techniques for Wearable Medical Devices[J]. Conf Proc IEEE Eng Med Biol Soc, 2014(2014):626-629.
11 Vinekar A, Mangalesh S, Jayadev C, et al. Impact of Expansion of Telemedicine Screening for Retinopathy of Prematurity in India[J]. Indian J Ophthalmol, 2017, 65(5):390-395.
12 Cikajlo I, Cizman S U, Vrhovac S, et al. A Cloud-based Virtual Reality App for a Novel Telemindfulness Service:rationale, design and feasibility evaluation[J]. JMIR Res Protoc, 2017, 6(6):e108.
13 Werner H, Lopes D S J, Ribeiro G, et al. Combination of Ultrasound, Magnetic Resonance Imaging and Virtual Reality Technologies to Generate Immersive Fetal 3D Visualizations During Pregnancy for Fetal Medicine Studies[J]. Ultrasound Obstet Gynecol, 2016, 50(2):271-272.
14 Raison N, Ahmed K, Fossati N, et al. Competency-based Training in Robotic Surgery:benchmark scores for virtual reality robotic simulation[J]. BJU Int, 2017, 119(5):804-811.
2 Zhang J, Sun L, Liu Y, et al. Mobile Device-based Electronic Data Capture System Used in a Clinical Randomized Controlled Trial:advantages and challenges[J]. J Med Internet Res, 2017, 19(3):e66.
3 Wang L, Wang Y, Ding Z, et al. Cell Selection Game for Densely-deployed Sensor and Mobile Devices in 5G Networks Integrating Heterogeneous Cells and the Internet of Things[J]. Sensors(Basel), 2015, 15(9):24230-24256.
4 You I, Sharma V, Atiquzzaman M, et al. GDTN:genome-based delay tolerant network formation in heterogeneous5G using inter-UA collaboration[J]. PLoS One, 2016,11(12):e167913.
5 Okasaka S, Weiler R J, Keusgen W, et al. Proof-ofconcept of a Millimeter-wave Integrated Heterogeneous Network for 5G Cellular[J]. Sensors(Basel), 2016, 16(9):1362.
6 Altabas J A, Izquierdo D, Lazaro J A, et al. 1 Gbps Fullduplex Links for Ultra-dense-WDM 6. 25 GHz Frequency Slots in Optical Metro-access Networks[J]. Opt Express, 2016, 24(1):555-565.
7 Chih-Lin I, Han S, Xu Z, et al. 5G:rethink mobile communications for 2020+[EB/OL].[2018-09-10]. http://europepmc. org/abstract/MED/26809577.
8 Cui H, Yao S. Key Technology and Quantity Control of Wearable Medical Devices[J]. Zhongguo Yi Liao Qi Xie Za Zhi, 2015, 39(2):113-117,121.
9 Khan Y, Ostfeld A E, Lochner C M, et al. Monitoring of Vital Signs with Flexible and Wearable Medical Devices[J]. Adv Mater, 2016, 28(22):4373-4395.
10 Voss T J, Subbian V, Beyette F J. Feasibility of Energy Harvesting Techniques for Wearable Medical Devices[J]. Conf Proc IEEE Eng Med Biol Soc, 2014(2014):626-629.
11 Vinekar A, Mangalesh S, Jayadev C, et al. Impact of Expansion of Telemedicine Screening for Retinopathy of Prematurity in India[J]. Indian J Ophthalmol, 2017, 65(5):390-395.
12 Cikajlo I, Cizman S U, Vrhovac S, et al. A Cloud-based Virtual Reality App for a Novel Telemindfulness Service:rationale, design and feasibility evaluation[J]. JMIR Res Protoc, 2017, 6(6):e108.
13 Werner H, Lopes D S J, Ribeiro G, et al. Combination of Ultrasound, Magnetic Resonance Imaging and Virtual Reality Technologies to Generate Immersive Fetal 3D Visualizations During Pregnancy for Fetal Medicine Studies[J]. Ultrasound Obstet Gynecol, 2016, 50(2):271-272.
14 Raison N, Ahmed K, Fossati N, et al. Competency-based Training in Robotic Surgery:benchmark scores for virtual reality robotic simulation[J]. BJU Int, 2017, 119(5):804-811.
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