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Artículos de revistas sobre el tema "Tactile internet"

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Autor: Grafiati
Publicado: 6 de septiembre de 2023

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1

Simsek, Meryem, Adnan Aijaz, Mischa Dohler, Joachim Sachs y Gerhard Fettweis. "5G-Enabled Tactile Internet". IEEE Journal on Selected Areas in Communications 34, n.º 3 (marzo de 2016): 460–73. http://dx.doi.org/10.1109/jsac.2016.2525398.

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2

Kuznetsov, K., A. Muthanna y A. Koucheryavy. "TACTILE INTERNET AND ITS APPLICATIONS". Telecom IT 7, n.º 2 (diciembre de 2019): 12–20. http://dx.doi.org/10.31854/2307-1303-2019-7-2-12-20.

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Based on 3GPP and ITU recommendations, Tactile Internet is one of the main applications of 5G communication networks (5G / IMT2020). Tactile Internet represents a new paradigm of telecommunications, which can support the transfer of Tactile sensations, which is the main application of this concept. The article analyzes Tactile Internet applications, implementation problems and approaches to their solution.
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3

Simsek, Meryem, Gerhard P. Fettweis y Chih-Lin I. "Tactile Internet [Scanning the Issue]". Proceedings of the IEEE 107, n.º 2 (febrero de 2019): 253–55. http://dx.doi.org/10.1109/jproc.2019.2892535.

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4

Saddik, Abdulmotaleb El. "Multimedia and the Tactile Internet". IEEE MultiMedia 27, n.º 1 (1 de enero de 2020): 5–7. http://dx.doi.org/10.1109/mmul.2020.2980098.

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5

Haddadin, Sami, Lars Johannsmeier y Fernando Diaz Ledezma. "Tactile Robots as a Central Embodiment of the Tactile Internet". Proceedings of the IEEE 107, n.º 2 (febrero de 2019): 471–87. http://dx.doi.org/10.1109/jproc.2018.2879870.

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6

Yuan, Bin, Chen Lin, Deqing Zou, Laurence Tianruo Yang y Hai Jin. "Detecting Malicious Switches for a Secure Software-defined Tactile Internet". ACM Transactions on Internet Technology 21, n.º 4 (30 de noviembre de 2021): 1–23. http://dx.doi.org/10.1145/3415146.

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The rapid development of the Internet of Things has led to demand for high-speed data transformation. Serving this purpose is the Tactile Internet, which facilitates data transfer in extra-low latency. In particular, a Tactile Internet based on software-defined networking (SDN) has been broadly deployed because of the proven benefits of SDN in flexible and programmable network management. However, the vulnerabilities of SDN also threaten the security of the Tactile Internet. Specifically, an SDN controller relies on the network status (provided by the underlying switches) to make network decisions, e.g., calculating a routing path to deliver data in the Tactile Internet. Hence, the attackers can compromise the switches to jeopardize the SDN and further attack Tactile Internet systems. For example, an attacker can compromise switches to launch distributed denial-of-service attacks to overwhelm the SDN controller, which will disrupt all the applications in the Tactile Internet. In pursuit of a more secure Tactile Internet, the problem of abnormal SDN switches in the Tactile Internet is analyzed in this article, including the cause of abnormal switches and their influences on different network layers. Then we propose an approach that leverages the messages sent by all switches to identify abnormal switches, which adopts a linear structure to store historical messages at a relatively low cost. By mapping each flow message to the flow establishment model, our method can effectively identify malicious SDN switches in the Tactile Internet and thus enhance its security.
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7

Junior, José C. V. S., Matheus F. Torquato, Daniel H. Noronha, Sérgio N. Silva y Marcelo A. C. Fernandes. "Proposal of the Tactile Glove Device". Sensors 19, n.º 22 (18 de noviembre de 2019): 5029. http://dx.doi.org/10.3390/s19225029.

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This project aims to develop a tactile glove device and a virtual environment inserted in the context of tactile internet. The tactile glove allows a human operator to interact remotely with objects from a 3D environment through tactile feedback or tactile sensation. In other words, the human operator is able to feel the contour and texture from virtual objects. Applications such as remote diagnostics, games, remote analysis of materials, and others in which objects could be virtualized can be significantly improved using this kind of device. These gloves have been an essential device in all research on the internet next generation called “Tactile Internet”, in which this project is inserted. Unlike the works presented in the literature, the novelty of this work is related to architecture, and tactile devices developed. They are within the 10 ms round trip latency limits required in a tactile internet environment. Details of hardware and software designs of a tactile glove, as well as the virtual environment, are described. Results and comparative analysis about round trip latency time in the tactile internet environment is developed.
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8

Dressler, Falko, Florian Klingler, Michele Segata y Renato Lo Cigno. "Cooperative Driving and the Tactile Internet". Proceedings of the IEEE 107, n.º 2 (febrero de 2019): 436–46. http://dx.doi.org/10.1109/jproc.2018.2863026.

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9

Steinbach, Eckehard, Matti Strese, Mohamad Eid, Xun Liu, Amit Bhardwaj, Qian Liu, Mohammad Al-Ja'Afreh et al. "Haptic Codecs for the Tactile Internet". Proceedings of the IEEE 107, n.º 2 (febrero de 2019): 447–70. http://dx.doi.org/10.1109/jproc.2018.2867835.

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10

Fettweis, Gerhard P. "The Tactile Internet: Applications and Challenges". IEEE Vehicular Technology Magazine 9, n.º 1 (marzo de 2014): 64–70. http://dx.doi.org/10.1109/mvt.2013.2295069.

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11

Ateya, Abdelhamied A., Ammar Muthanna, Anastasia Vybornova, Irina Gudkova, Yuliya Gaidamaka, Abdelrahman Abuarqoub, Abeer D. Algarni y Andrey Koucheryavy. "Model Mediation to Overcome Light Limitations—Toward a Secure Tactile Internet System". Journal of Sensor and Actuator Networks 8, n.º 1 (2 de enero de 2019): 6. http://dx.doi.org/10.3390/jsan8010006.

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Enabling haptic communication as well as voice and data over the future 5G cellular system has become a demand. Tactile Internet is one of the main use cases of the 5G system that will allow the transfer of haptic communications in real time. Latency, availability, reliability, and security are the main design challenges of the tactile Internet system and haptic based bilateral teleoperation systems. An end-to-end latency of 1 ms remains the main challenge toward tactile Internet system realization, not only for the processing and coding delays but mainly for the limitations of light. In this work, we analyze the key solutions to overcome the light limitations and enable the tactile Internet over any distances with the required latency. Building a virtual model or model mediated for the remote environment at the edge cloud unit near to the end user is the main solution. By means of AI, the virtual model can predict the behavior of the remote environment and thus, the end user can interact with the virtual environment with a high system experience. This literature review covers the existing work of the model mediated bilateral teleoperated systems and discusses its availability for the tactile Internet system. Furthermore, the security issues of tactile Internet system and the effect of model mediated system on the required security level of tactile Internet applications are discussed. Finally, a structure for the tactile Internet system, with the deployment of model mediation, is suggested.
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12

Alves, Pedro V. A., Patricia D. M. Plentz y Marcelo A. C. Fernandes. "Proposal of a Real-Time Test Platform for Tactile Internet Systems". Sensors 22, n.º 24 (15 de diciembre de 2022): 9865. http://dx.doi.org/10.3390/s22249865.

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This work aimed to develop a real-time test platform for systems associated with the tactile internet area. The proposal comprises a master device, a communication channel and a slave device. The master device is a tactile glove (wearable technology) that works as a tactile interface based on vibratory feedback. The master device can interact with virtual elements (local or remote). The Matlab/Simulink environment and a robotics toolbox form the communication channel and the slave device. The communication channel introduces a bidirectional connection of variable latency, and the slave device is defined as a robotic phantom omni manipulator emulated in Matlab/Simulink. The virtual robotic manipulator, the slave device, can generate different types of tactile sensations in the tactile glove, that is, in the master device. The platform can model tactile sensations such as coarse roughness, fine roughness, smoothness, dripping and softness. The proposed platform presented adequate results and can be used to test various algorithms and methods correlated to the tactile internet.
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13

Wang, Qian, Ziying Mo, Benle Yin, Lianming Zhang y Pingping Dong. "Bounding the Upper Delays of the Tactile Internet Using Deterministic Network Calculus". Electronics 12, n.º 1 (21 de diciembre de 2022): 21. http://dx.doi.org/10.3390/electronics12010021.

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With the increasing popularity of time-sensitive network applications and the gradual integration of the Tactile Internet into people’s lives, how to ensure ultra-low latency has become a demand and challenge for network performance. Therefore, it is extremely important to analyze the performance of the Tactile Internet. In this paper, we propose an analytical model based on deterministic network calculus (DNC) to quantitatively derive the end-to-end performance bounds of the Tactile Internet, develop a tandem model describing the communication of the Tactile Internet network, and analyze delay-related traffic parameters, such as arrival rate and burst size. We investigate the variation of the accuracy of the DNC analytical model and the measurement model under different parameters, and verify the accuracy of the proposed DNC analytical model by theoretical derivation and analysis and comparison with the measurement model under the NS3 platform. We discuss the impact of relevant parameters on the delay boundaries to determine which network configuration enables the end-to-end delay to meet the established requirements. This will provide valuable guidance for the design of Tactile Internet architectures.
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14

Lee, Tian-Fu, Xiucai Ye, Wei-Yu Chen y Chi-Chang Chang. "Enhanced Authenticated Key Agreement for Surgical Applications in a Tactile Internet Environment". Sensors 22, n.º 20 (18 de octubre de 2022): 7941. http://dx.doi.org/10.3390/s22207941.

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The Tactile Internet enables physical touch to be transmitted over the Internet. In the context of electronic medicine, an authenticated key agreement for the Tactile Internet allows surgeons to perform operations via robotic systems and receive tactile feedback from remote patients. The fifth generation of networks has completely changed the network space and has increased the efficiency of the Tactile Internet with its ultra-low latency, high data rates, and reliable connectivity. However, inappropriate and insecure authentication key agreements for the Tactile Internet may cause misjudgment and improper operation by medical staff, endangering the life of patients. In 2021, Kamil et al. developed a novel and lightweight authenticated key agreement scheme that is suitable for remote surgery applications in the Tactile Internet environment. However, their scheme directly encrypts communication messages with constant secret keys and directly stores secret keys in the verifier table, making the scheme vulnerable to possible attacks. Therefore, in this investigation, we discuss the limitations of the scheme proposed by Kamil scheme and present an enhanced scheme. The enhanced scheme is developed using a one-time key to protect communication messages, whereas the verifier table is protected with a secret gateway key to mitigate the mentioned limitations. The enhanced scheme is proven secure against possible attacks, providing more security functionalities than similar schemes and retaining a lightweight computational cost.
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15

Siddiqha, Ayesha y Harisa Firdose. "Impact of Tactile Internet over Skill Set". International Journal of Emerging Research in Management and Technology 6, n.º 7 (29 de junio de 2018): 308. http://dx.doi.org/10.23956/ijermt.v6i7.231.

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Using 5G advances, ultra-low delay networking, AI and robotics, this paper brings out the emergences of innovative internet to deliver the skills digitally. We are discovering the technical challenges which are to be suppressed in order to achieve that vision that is to implement all the inventive ideas that are vision to be accomplishes in future days. This idea would unwrap all the techniques to develop a 5G tactile internet, AI and systematized haptic codecs. This paper concludes the general idea on the current potential and the uniform initiatives in 5G tactile internet standards.
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16

Li, Chong, Chih-Ping Li, Kianoush Hosseini, Soo Bum Lee, Jing Jiang, Wanshi Chen, Gavin Horn, Tingfang Ji, John E. Smee y Junyi Li. "5G-Based Systems Design for Tactile Internet". Proceedings of the IEEE 107, n.º 2 (febrero de 2019): 307–24. http://dx.doi.org/10.1109/jproc.2018.2864984.

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17

Aijaz, Adnan y Mahesh Sooriyabandara. "The Tactile Internet for Industries: A Review". Proceedings of the IEEE 107, n.º 2 (febrero de 2019): 414–35. http://dx.doi.org/10.1109/jproc.2018.2878265.

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18

Miao, Yiming, Yingying Jiang, Limei Peng, M. Shamim Hossain y Ghulam Muhammad. "Telesurgery Robot Based on 5G Tactile Internet". Mobile Networks and Applications 23, n.º 6 (5 de septiembre de 2018): 1645–54. http://dx.doi.org/10.1007/s11036-018-1110-3.

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19

Zhani, Mohamed Faten y Hesham ElBakoury. "FlexNGIA: A Flexible Internet Architecture for the Next-Generation Tactile Internet". Journal of Network and Systems Management 28, n.º 4 (17 de marzo de 2020): 751–95. http://dx.doi.org/10.1007/s10922-020-09525-0.

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20

Zubair Islam, Muhammad, Shahzad, Rashid Ali, Amir Haider y Hyungseok Kim. "IoTactileSim: A Virtual Testbed for Tactile Industrial Internet of Things Services". Sensors 21, n.º 24 (15 de diciembre de 2021): 8363. http://dx.doi.org/10.3390/s21248363.

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With the inclusion of tactile Internet (TI) in the industrial sector, we are at the doorstep of the tactile Industrial Internet of Things (IIoT). This provides the ability for the human operator to control and manipulate remote industrial environments in real-time. The TI use cases in IIoT demand a communication network, including ultra-low latency, ultra-high reliability, availability, and security. Additionally, the lack of the tactile IIoT testbed has made it more severe to investigate and improve the quality of services (QoS) for tactile IIoT applications. In this work, we propose a virtual testbed called IoTactileSim, that offers implementation, investigation, and management for QoS provisioning in tactile IIoT services. IoTactileSim utilizes a network emulator Mininet and robotic simulator CoppeliaSim to perform real-time haptic teleoperations in virtual and physical environments. It provides the real-time monitoring of the implemented technology parametric values, network impairments (delay, packet loss), and data flow between operator (master domain) and teleoperator (slave domain). Finally, we investigate the results of two tactile IIoT environments to prove the potential of the proposed IoTactileSim testbed.
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21

Seeling, Patrick, Martin Reisslein y Frank H. P. Fitzek. "Real-Time Compression for Tactile Internet Data Streams". Sensors 21, n.º 5 (9 de marzo de 2021): 1924. http://dx.doi.org/10.3390/s21051924.

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The Tactile Internet will require ultra-low latencies for combining machines and humans in systems where humans are in the control loop. Real-time and perceptual coding in these systems commonly require content-specific approaches. We present a generic approach based on deliberately reduced number accuracy and evaluate the trade-off between savings achieved and errors introduced with real-world data for kinesthetic movement and tele-surgery. Our combination of bitplane-level accuracy adaptability with perceptual threshold-based limits allows for great flexibility in broad application scenarios. Combining the attainable savings with the relatively small introduced errors enables the optimal selection of a working point for the method in actual implementations.
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22

Gokhale, Vineet, Kees Kroep, Vijay S. Rao, Joseph Verburg y Ramesh Yechangunja. "TIXT: An Extensible Testbed for Tactile Internet Communication". IEEE Internet of Things Magazine 3, n.º 1 (marzo de 2020): 32–37. http://dx.doi.org/10.1109/iotm.0001.1900075.

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23

Moskvitch, K. "Tactile Internet: 5G and the Cloud on steroids". Engineering & Technology 10, n.º 4 (1 de mayo de 2015): 48–53. http://dx.doi.org/10.1049/et.2015.0418.

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24

Meshram, Dewanand A. y Dipti D. Patil. "5G Enabled Tactile Internet for Tele-Robotic Surgery". Procedia Computer Science 171 (2020): 2618–25. http://dx.doi.org/10.1016/j.procs.2020.04.284.

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25

Van Den Berg, Daniel, Rebecca Glans, Dorian De Koning, Fernando A. Kuipers, Jochem Lugtenburg, Kurian Polachan, Prabhakar T. Venkata, Chandramani Singh, Belma Turkovic y Bryan Van Wijk. "Challenges in Haptic Communications Over the Tactile Internet". IEEE Access 5 (2017): 23502–18. http://dx.doi.org/10.1109/access.2017.2764181.

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26

Antonakoglou, Konstantinos, Xiao Xu, Eckehard Steinbach, Toktam Mahmoodi y Mischa Dohler. "Toward Haptic Communications Over the 5G Tactile Internet". IEEE Communications Surveys & Tutorials 20, n.º 4 (2018): 3034–59. http://dx.doi.org/10.1109/comst.2018.2851452.

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27

Yu, Heejung, Muhammad Khalil Afzal, Yousaf Bin Zikria, Abderrezak Rachedi y Frank H. P. Fitzek. "Tactile Internet: Technologies, test platforms, trials, and applications". Future Generation Computer Systems 106 (mayo de 2020): 685–88. http://dx.doi.org/10.1016/j.future.2020.01.057.

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28

Bai, Yun. "Industrial Internet of things over tactile Internet in the context of intelligent manufacturing". Cluster Computing 21, n.º 1 (22 de mayo de 2017): 869–77. http://dx.doi.org/10.1007/s10586-017-0925-1.

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29

Junior, José C. V. S., Sérgio N. Silva, Matheus F. Torquato, Toktam Mahmoodi, Mischa Dohler y Marcelo A. C. Fernandes. "FPGA Applied to Latency Reduction for the Tactile Internet". Sensors 22, n.º 20 (16 de octubre de 2022): 7851. http://dx.doi.org/10.3390/s22207851.

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Tactile internet applications allow robotic devices to be remotely controlled over a communication medium with an unnoticeable time delay. In bilateral communication, the acceptable round trip latency is usually 1 ms up to 10 ms, depending on the application requirements. The communication network is estimated to generate 70% of the total latency, and master and slave devices produce the remaining 30%. Thus, this paper proposes a strategy to reduce 30% of the total latency produced by such devices. The strategy is to use FPGAs to minimize the execution time of device-associated algorithms. With this in mind, this work presents a new hardware reference model for modules that implement nonlinear positioning and force calculations and a tactile system formed by two robotic manipulators. In addition to presenting the implementation details, simulations and experimental tests are performed in order to validate the hardware proposed model. Results associated with the FPGA sampling rate, throughput, latency, and post-synthesis occupancy area are analyzed.
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30

Senk, Stefan, Marian Ulbricht, Ievgenii Tsokalo, Justus Rischke, Shu-Chen Li, Stefanie Speidel, Giang T. Nguyen, Patrick Seeling y Frank H. P. Fitzek. "Healing Hands: The Tactile Internet in Future Tele-Healthcare". Sensors 22, n.º 4 (11 de febrero de 2022): 1404. http://dx.doi.org/10.3390/s22041404.

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In the early 2020s, the coronavirus pandemic brought the notion of remotely connected care to the general population across the globe. Oftentimes, the timely provisioning of access to and the implementation of affordable care are drivers behind tele-healthcare initiatives. Tele-healthcare has already garnered significant momentum in research and implementations in the years preceding the worldwide challenge of 2020, supported by the emerging capabilities of communication networks. The Tactile Internet (TI) with human-in-the-loop is one of those developments, leading to the democratization of skills and expertise that will significantly impact the long-term developments of the provisioning of care. However, significant challenges remain that require today’s communication networks to adapt to support the ultra-low latency required. The resulting latency challenge necessitates trans-disciplinary research efforts combining psychophysiological as well as technological solutions to achieve one millisecond and below round-trip times. The objective of this paper is to provide an overview of the benefits enabled by solving this network latency reduction challenge by employing state-of-the-art Time-Sensitive Networking (TSN) devices in a testbed, realizing the service differentiation required for the multi-modal human-machine interface. With completely new types of services and use cases resulting from the TI, we describe the potential impacts on remote surgery and remote rehabilitation as examples, with a focus on the future of tele-healthcare in rural settings.
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31

Yahiya, Tara I. y Pinar Kirci. "Issues and Challenges Facing Low Latency in Tactile Internet". UKH Journal of Science and Engineering 3, n.º 1 (20 de junio de 2019): 47–58. http://dx.doi.org/10.25079/ukhjse.v3n1y2019.pp47-58.

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Tactile Internet is considered as the next step towards a revolutionary impact on the society, this is due to the introduction of different types of applications mainly the haptic ones that require strict Quality of Service guarantee especially in terms of latency. This would be a major challenge towards the design of new communication technologies and protocols in order to provide ultra-low latency. This article discusses the diverse technologies, communication protocols, and the necessary infrastructure to provide low latency based principally on the fifth generation (5G) of mobile network that is considered as the key enablers of the Tactile Internet. Furthermore, current research direction along with future challenges and open issues are discussed extensively.
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32

Tanwar, Sudeep, Sudhanshu Tyagi, Ishan Budhiraja y Neeraj Kumar. "Tactile Internet for Autonomous Vehicles: Latency and Reliability Analysis". IEEE Wireless Communications 26, n.º 4 (agosto de 2019): 66–72. http://dx.doi.org/10.1109/mwc.2019.1800553.

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33

Wei, Xin, Qi Duan y Liang Zhou. "A QoE-Driven Tactile Internet Architecture for Smart City". IEEE Network 34, n.º 1 (enero de 2020): 130–36. http://dx.doi.org/10.1109/mnet.001.1900078.

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34

Maier, Martin, Mahfuzulhoq Chowdhury, Bhaskar Prasad Rimal y Dung Pham Van. "The tactile internet: vision, recent progress, and open challenges". IEEE Communications Magazine 54, n.º 5 (mayo de 2016): 138–45. http://dx.doi.org/10.1109/mcom.2016.7470948.

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Sachs, Joachim, Lars A. A. Andersson, Jose Araujo, Calin Curescu, Johan Lundsjo, Goran Rune, Eckehard Steinbach y Gustav Wikstrom. "Adaptive 5G Low-Latency Communication for Tactile InternEt Services". Proceedings of the IEEE 107, n.º 2 (febrero de 2019): 325–49. http://dx.doi.org/10.1109/jproc.2018.2864587.

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36

Maier, Martin, Amin Ebrahimzadeh y Mahfuzulhoq Chowdhury. "The Tactile Internet: Automation or Augmentation of the Human?" IEEE Access 6 (2018): 41607–18. http://dx.doi.org/10.1109/access.2018.2861768.

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37

Mountaser, Ghizlane, Toktam Mahmoodi y Osvaldo Simeone. "Reliable and Low-Latency Fronthaul for Tactile Internet Applications". IEEE Journal on Selected Areas in Communications 36, n.º 11 (noviembre de 2018): 2455–63. http://dx.doi.org/10.1109/jsac.2018.2872299.

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38

Al Ridhawi, Ismaeel, Moayad Aloqaily, Fakhri Karray, Mohsen Guizani y Merouane Debbah. "Realizing the Tactile Internet through Intelligent Zero Touch Networks". IEEE Network 36, n.º 6 (noviembre de 2022): 243–50. http://dx.doi.org/10.1109/mnet.001.2200016.

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39

Vybornova, A. "A SURVEY ON HAPTIC CODEC DESIGN APPROACHES". Telecom IT 7, n.º 1 (2019): 31–40. http://dx.doi.org/10.31854/2307-1303-2019-7-1-31-40.

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Tactile communication as a part of Tactile Internet concept now is one of the most promising research areas in telecommunications. Methods and approaches to design tactile codec, as well as equipment for the tactile sensation capture and display were the research subject of this work. As a research method author engaged collection and analysis of the known approaches to the subject of research. Core result. In this article author provide a survey of tactile data capture and display methods. Additionally, author propose a promising approach to the tactile codecs design, where vibration with sampling frequency of 2 kHz is combined with other tactile data, which is captured and send on an ad hoc basis. Practical relevance of the result allows to create a standard tactile codec. This in turn allows to widely introduce tactile component to the telecommunication applications.
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40

Padhi, Prafulla Kumar y Feranando Charrua-Santos. "6G Enabled Tactile Internet and Cognitive Internet of Healthcare Everything: Towards a Theoretical Framework". Applied System Innovation 4, n.º 3 (10 de septiembre de 2021): 66. http://dx.doi.org/10.3390/asi4030066.

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Digital era deficiencies traditionally exist in healthcare applications because of the unbalanced distribution of medical resources, especially in rural areas globally. Cognitive data intelligence, which constitute the integration of cognitive computing, massive data analytics, and tiny artificial intelligence, especially tiny machine learning, can be used to palpate a patient’s health status, physiologically and psychologically transforming the current healthcare system. To remotely detect patients’ emotional state of diagnosing diseases, the integration of 6G enabled Tactile Internet, cognitive data intelligence, and Internet of Healthcare Everything is proposed to form the 6GCIoHE system that aims at achieving global ubiquitous accessibility, extremely low latency, high reliability, and elevated performance in cognitive healthcare in real time to ensure patients receive prompt treatment, especially for the haptic actions. Judiciously, a model-driven methodology is proffered to facilitate the 6GCIoHE system design and development that adopts different refinement levels to incorporate the cognitive healthcare requirements through the interactions of semantic management, process management, cognitive intelligence capabilities, and knowledge sources. Based on the 6GCIoHE system architecture, applications, and challenges, the aim of this study was accomplished by developing a novel theoretical framework to captivate further research within the cognitive healthcare field.
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41

Di Marco, Piergiuseppe y Pangun Park. "Architectures and Protocols for Wireless Sensor and Actuator Networks". Journal of Sensor and Actuator Networks 10, n.º 3 (30 de julio de 2021): 52. http://dx.doi.org/10.3390/jsan10030052.

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Recent advances in wireless networking, sensing, computing, and control are revolutionizing how physical systems interact with information and physical processes such as Cyber-Physical Systems (CPS), Internet of Things (IoT), and Tactile Internet [...]
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42

Sapunova, E., S. Leontiev y A. Vybornova. "Traffic analysis for a parametric tactile codec". Telecom IT 8, n.º 2 (junio de 2020): 67–76. http://dx.doi.org/10.31854/2307-1303-2020-8-2-67-76.

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This article is devoted to the haptic communications types and methods. Haptic and tactile codecs were the research subject. As a research method authors engaged analysis of the current research re-sults in the area, research and development of the parametric tactile codec, as well as statistical analysis of the obtained tactile traffic. Core result. In this article authors provide a classification of the haptic interactions and tactile codes approaches. The other result of the work is a simple parametric tactile co-dec. Also, authors have found out that such type of codec created quite intensive flow of the packets of moderate size (500 bytes). Practical relevance of the result consists in the creation of the tactile co-dec that may be used for simple Tactile Internet applications. Besides that, obtained information about tactile traffic characteristics may be used to update forecasts of the global telecom traffic growth.
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43

Silva, Sérgio N., Lucileide M. D. da Silva, Leonardo A. Dias y Marcelo A. C. Fernandes. "Prediction Techniques on FPGA for Latency Reduction on Tactile Internet". Sensors 22, n.º 9 (7 de mayo de 2022): 3556. http://dx.doi.org/10.3390/s22093556.

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Tactile Internet (TI) is a new internet paradigm that enables sending touch interaction information and other stimuli, which will lead to new human-to-machine applications. However, TI applications require very low latency between devices, as the system’s latency can result from the communication channel, processing power of local devices, and the complexity of the data processing techniques, among others. Therefore, this work proposes using dedicated hardware-based reconfigurable computing to reduce the latency of prediction techniques applied to TI. Finally, we demonstrate that prediction techniques developed on field-programmable gate array (FPGA) can minimize the impacts caused by delays and loss of information. To validate our proposal, we present a comparison between software and hardware implementations and analyze synthesis results regarding hardware area occupation, throughput, and power consumption. Furthermore, comparisons with state-of-the-art works are presented, showing a significant reduction in power consumption of ≈1300× and reaching speedup rates of up to ≈52×.
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44

El-dosuky, M. A. "E-Voting Authentication based on Tactile Internet and Blockchain Technology". International Journal of Computer Applications 183, n.º 39 (30 de noviembre de 2021): 22–25. http://dx.doi.org/10.5120/ijca2021921763.

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45

Le, Duc Tran, Tri Gia Nguyen y Thi Thu Thao Tran. "The 1-Millisecond Challenge – Tactile Internet: From Concept to Standardization". Journal of Telecommunications and the Digital Economy 8, n.º 2 (29 de mayo de 2020): 56–93. http://dx.doi.org/10.18080/jtde.v8n2.240.

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In recent years, Tactile Internet (TI) has become a familiar concept to humankind. It is expected to have the potential to create many new opportunities and applications that reshape our life and economy. However, the biggest challenge for recognizing the TI – the “1-millisecond challenge” remains unchanged, and it requires additional research efforts. In this paper, we will dissect what has been done and what needs to be done for the “TI ecosystem”. We will also investigate the TI concept from the perspective of the “network latency evolution”, as well as analyzing the architecture and the emerging technologies, which are needed to meet the strict requirements of the TI.
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46

Beniiche, Abdeljalil, Amin Ebrahimzadeh y Martin Maier. "The Way of the DAO: Toward Decentralizing the Tactile Internet". IEEE Network 35, n.º 4 (julio de 2021): 190–97. http://dx.doi.org/10.1109/mnet.021.1900667.

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47

Gokhale, Vineet, Mohamad Eid, Kees Kroep, R. Venkatesha Prasad y Vijay S. Rao. "Toward Enabling High-Five Over WiFi: A Tactile Internet Paradigm". IEEE Communications Magazine 59, n.º 12 (diciembre de 2021): 90–96. http://dx.doi.org/10.1109/mcom.007.2100271.

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48

Wong, Elaine, Maluge Pubudini Imali Dias y Lihua Ruan. "Predictive Resource Allocation for Tactile Internet Capable Passive Optical LANs". Journal of Lightwave Technology 35, n.º 13 (1 de julio de 2017): 2629–41. http://dx.doi.org/10.1109/jlt.2017.2654365.

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49

Kim, Kwang Soon, Dong Ku Kim, Chan-Byoung Chae, Sunghyun Choi, Young-Chai Ko, Jonghyun Kim, Yeon-Geun Lim et al. "Ultrareliable and Low-Latency Communication Techniques for Tactile Internet Services". Proceedings of the IEEE 107, n.º 2 (febrero de 2019): 376–93. http://dx.doi.org/10.1109/jproc.2018.2868995.

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50

Mumtaz, Shahid, Ai Bo, Anwer Al-Dulaimi y Kim-Fung Tsang. "Guest Editorial 5G Tactile Internet: An Application for Industrial Automation". IEEE Transactions on Industrial Informatics 15, n.º 5 (mayo de 2019): 2992–94. http://dx.doi.org/10.1109/tii.2019.2904202.

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