High-density and de-densified smart campus communications : technologies, integration, implementation and applications / Daniel Minoli, Jo-Anne Dressendofer.

By: Minoli, Daniel, 1952- [author.]
Contributor(s): Dressendofer, Jo-Anne [author.]
Language: English Publisher: Hoboken, NJ : Wiley, 2021Description: 1 online resourceContent type: text Media type: computer Carrier type: online resourceISBN: 9781119716051 ; 9781119716075; 1119716071; 9781119716082; 111971608X; 9781119716068; 1119716063Subject(s): Wireless communication systems | Smart materialsGenre/Form: Electronic books.DDC classification: 621.384 LOC classification: TK5103.2Online resources: Full text is available at Wiley Online Library Click here to view. Summary: "High-density campus communications have traditionally been important in many environments, including airports; stadiums; convention centers; shopping malls; classrooms; hospitals; cruise ships; train and subway stations; evangelical megachurches; large multiple dwelling units; boardwalks; (special events in) parks; dense smart cities; and other venues. These communications span several domains: people-to-people, people-to-websites, people-to-applications, sensors-to-cloud analytics, and machines-to-machines/device-to-device. While the later Internet of Things (IoT) applications are generally (but not always) low speed, the former applications are typically high-speed. In many settings, people access videos (a la Over The Top [OTT] mode) or websites and applications that often include short videos or other high data-rate content. Deploying optimally-performing high-density campus communication systems is desired and required in many cases, but it can, at the same time, be a complex task to undertake successfully."-- Provided by publisher.
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Includes bibliographical references and index.

"High-density campus communications have traditionally been important in many environments, including airports; stadiums; convention centers; shopping malls; classrooms; hospitals; cruise ships; train and subway stations; evangelical megachurches; large multiple dwelling units; boardwalks; (special events in) parks; dense smart cities; and other venues. These communications span several domains: people-to-people, people-to-websites, people-to-applications, sensors-to-cloud analytics, and machines-to-machines/device-to-device. While the later Internet of Things (IoT) applications are generally (but not always) low speed, the former applications are typically high-speed. In many settings, people access videos (a la Over The Top [OTT] mode) or websites and applications that often include short videos or other high data-rate content. Deploying optimally-performing high-density campus communication systems is desired and required in many cases, but it can, at the same time, be a complex task to undertake successfully."-- Provided by publisher.

About the Author

David Minoli is the principal consultant at DVI Communications. He has testified as an expert witness in approximately twenty cases and been affiliated with Nokia, Ericsson, AT&T, SES, NYU, and the Stevens Institute of Technology. He is the author or co-author of numerous networking and wireless books, including Innovations in Satellite Communications and Satellite Technology: The Industry Implications of DVB-S2X, High Throughput Satellites, Ultra HD, M2M, and IP.

Jo-Anne Dressendofer is the Founder of Slice Wireless Solutions (SliceWiFi) and has over 25 years’ experience as a recognized top performer and leader driving creativity into the network technology industry. Covered in this publication, her award-winning organization is responsible for developing and deploying the patent-pending HDC super-integrated network known as WiSNET®.

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