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Benchmark of IP500 IoT Wireless Network and Redundant Infrastructure for Commercial Buildings

NOV
10
2020
10. NOV 2020

Lecture electronica Conferences > Wireless Congress > Session 4: Industrial

15:50-16:15 h | Virtual

Part One: IP500 Performance in a real test environment in commercial buildings and high interference environment / A reliable and secure operation of an IoT Wireless Network is key, connecting mission critical smart devices successfully in commercial buildings. Therefore, an IoT wireless network in large commercial buildings and challenging environment (like tunnels, trade shows, industrial environment or air plane cabins) must deliver highest performance, security and robustness, as well as a scalable system topology … and at the same time to be conform with EN and VdS regulations. Three independent organizations (DAFÜR, HTWK University of Leipzig and UMLAUT) have performed tests with the IP500 wireless IoT network and have addressed the most critical performance features which are important for commercial building applications – like range and data rate, short latency as well as security of the data transmission in a wireless IoT network. In addition, robustness and reliability of a wireless IoT network is another key feature in a challenging environment. UMLAUT has tested and benchmarked the IP500 wireless IoT platform with other IoT solutions in a very challenging environment – in this case it was in an airplane cabin with a very high RF density of 2.4GHz devices. Part Two: Redundant, scalable and secure IoT Infrastructure / These test results (above) provide the bases for a secure, reliable and high performing IoT wireless infrastructure for mission critical applications in commercial buildings. As a result, DAFÜR presents the newest development of a fully redundant IoT wireless infrastructure for commercial buildings (in-door) and cloud-based applications. The modularity and redundancy of the entire IP500 wireless IoT infrastructure provides seamless and automated routing capabilities for each sensor and actor (real time) even at a breakdown of one or more gateways in the IoT network. UMALUT shows why such highest performance, security at the network layer and interoperability between security and comfort applications are the revolution in the IoT marketplace for commercial buildings as well as SmartCity applications.

Subjects: Wireless

Speaker: Prof. Dr. Stephan Bannwarth (University of Offenburg), Vladimir Rakic (UMLAUT), Prof. Dr. Faouzi Derbel (HTWK Leipzig), Ralf Hintner (DAFÜR), Helmut Adamski (IP500 Alliance)

Type: Lecture

Speech: English

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Part One: IP500 Performance in a real test environment in commercial buildings and high interference environment / A reliable and secure operation of an IoT Wireless Network is key, connecting mission critical smart devices successfully in commercial buildings. Therefore, an IoT wireless network in large commercial buildings and challenging environment (like tunnels, trade shows, industrial environment or air plane cabins) must deliver highest performance, security and robustness, as well as a scalable system topology … and at the same time to be conform with EN and VdS regulations. Three independent organizations (DAFÜR, HTWK University of Leipzig and UMLAUT) have performed tests with the IP500 wireless IoT network and have addressed the most critical performance features which are important for commercial building applications – like range and data rate, short latency as well as security of the data transmission in a wireless IoT network. In addition, robustness and reliability of a wireless IoT network is another key feature in a challenging environment. UMLAUT has tested and benchmarked the IP500 wireless IoT platform with other IoT solutions in a very challenging environment – in this case it was in an airplane cabin with a very high RF density of 2.4GHz devices. Part Two: Redundant, scalable and secure IoT Infrastructure / These test results (above) provide the bases for a secure, reliable and high performing IoT wireless infrastructure for mission critical applications in commercial buildings. As a result, DAFÜR presents the newest development of a fully redundant IoT wireless infrastructure for commercial buildings (in-door) and cloud-based applications. The modularity and redundancy of the entire IP500 wireless IoT infrastructure provides seamless and automated routing capabilities for each sensor and actor (real time) even at a breakdown of one or more gateways in the IoT network. UMALUT shows why such highest performance, security at the network layer and interoperability between security and comfort applications are the revolution in the IoT marketplace for commercial buildings as well as SmartCity applications.

Prof. Dr. Stephan Bannwarth

Prof. Dr. Stephan Bannwarth

University of Offenburg

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Speaker,
UMLAUT

Vladimir Rakic

Vladimir Rakic

UMLAUT

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Speaker,
HTWK Leipzig

Prof. Dr. Faouzi Derbel

Prof. Dr. Faouzi Derbel

HTWK Leipzig

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Speaker,
DAFÜR

Ralf Hintner

Ralf Hintner

DAFÜR

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Speaker,
IP500 Alliance

Helmut Adamski

Helmut Adamski

IP500 Alliance

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Informations

Prof. Dr. Stephan Bannwarth
Prof. Dr. Stephan Bannwarth

Speaker,
UMLAUT

Vladimir Rakic
Vladimir Rakic

Speaker,
HTWK Leipzig

Prof. Dr. Faouzi Derbel
Prof. Dr. Faouzi Derbel

Speaker,
DAFÜR

Ralf Hintner
Ralf Hintner

Speaker,
IP500 Alliance

Helmut Adamski
Helmut Adamski

Location

Eingang
Nord-West
ICM
Eingang
Nord
Eingang
West
Atrium
Eingang
Nord-Ost
Eingang
Ost
Conference
Center Nord
Freigelände
C1
C2
C3
C4
C5
C6
B0
B1
B2
B3
B4
B5
B6
A1
A2
A3
A4
A5
A6

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