This is Fog: autonomous mapping robots in action at Fog World Congress 2018
Robots to create real-time maps of venue for Fog World Congress 2018 attendees, showcasing that fog computing systems from various domains can communicate
FREMONT, Calif., - Sept. 12, 2018 - When you arrive at Fog World Congress 2018, watch out for the robots. Autonomous mapping robots will be traversing and mapping the venue floor in real-time for conference attendees. Its fog in action, designed to validate that fog computing systems from various domains can communicate, explained conference organizers.
Scheduled for October 1-3 in San Francisco, Fog World Congress 2018 is the largest gathering of fog computing leaders and edge influencers worldwide. It is produced by the OpenFog Consortium in collaboration with IEEE Communications Society.
A live, proof-of-concept demonstration of the autonomous mapping robots will take place in the exhibitor area during the conference. The purpose of the demo is to validate that fog systems belonging to different domains can communicate with each other. These proof-of-concept robots are designed based on the OpenFog Consortium OpenFog Reference Architecture, which has been adopted in the IEEE standard for fog computing.
In the demo, three separate domains - Japan, Shanghai and Taiwan - will collaborate to jointly map the venue floor in real time and display a complete map to visitors via a website. The robots are equipped with LADAR (LAser Detection and Ranging) to collect sensing data and SLAM (Simultaneous Localization and Mapping) algorithms located in the fog nodes gateways to generate the maps.
The robots from these different domains will continuously roam separate areas of the conference venue, collecting sensor data. Each sensor will send data to separate fog nodes, where SLAM algorithms will be used to generate partial maps of the scanned venue floor. The respective fog nodes will produce the domain maps, separately from Shanghai and Taiwan. The maps will be combined into a complete map in the third, located in Japan. The complete map will be continuously updated over the web in real-time and displayed at the Interoperability Demo booth.
"This proof-of-concept will confirm the effectiveness of fog computing, using a combination of fog devices, fog nodes and a cloud system," said Ming-Tuo Zhou, Chair of the Testbed Working Group of OpenFog Consortium, and Group Leader at the Shanghai Institute of Fog Computing Technology, a joint laboratory of ShanghaiTech University and the Shanghai Institute of Microsystem and Information Technology, Chinese Academy of Sciences.
"It will also confirm the value of the OpenFog standard to enable system interconnection between different domains."
"Most importantly, this type of robot can be applied across many industries and scenarios, including the aftermath of disasters and search and rescue missions," said Ming-Tuo. "Any industry that requires mapping can greatly benefit from this technology, which makes this an exciting time for the industry and for Fog World Congress 2018."
Fog World Congress is the largest gathering of fog leaders and edge influencers in the world. Attendees include technologists, data scientists, application developers, educators, researchers, analysts, VCs and investors, service providers, government agencies and enterprises representing a wide variety of industries.
The event provides a platform to showcase fog computing use cases, architecture, standards, developments and research. Topics range from: Intelligence on the edge, machine learning, infrastructure-as-a-service, smart grid, intelligent IoT services, 5G, security, the OpenFog reference architecture, AI, smart city, network/messaging, software infrastructure, mobile edge computing, and more. The event culminates with Fog Tank, which showcases leading innovators in fog technologies and applications as they take the center stage with investors and VCs.
About OpenFog Consortium
The OpenFog Consortium was founded to accelerate the adoption of fog computing and address bandwidth, latency and communications challenges associated with IoT, 5G and AI applications. Committed to creating open technologies, its mission is to create and validate a framework for secure and efficient information processing between clouds, endpoints and services. OpenFog was founded in November 2015 and today represents the leading researchers and innovators in fog computing. For more information, visit www.openfogconsortium.org; Twitter: @OpenFog; LinkedIn: /company/openfog-consortium.
About IEEE ComSoc
IEEE is the worlds largest technical professional organization dedicated to advancing technology for the benefit of humanity. Through its highly cited publications, conferences, technology standards, and professional and educational activities, IEEE is the trusted voice in a wide variety of areas ranging from aerospace systems, computers, and telecommunications to biomedical engineering, electric power, and consumer electronics. The IEEE Communications Society is a leading global community within IEEE comprised of a diverse group of industry professionals with a common interest in advancing all communications technologies. Learn more at http://www.ieee.org.
About IoT Evolution
IoT Evolution combines the power of live conferences with a robust news site, global online communities, webinars, a magazine, and white papers to educate, inform and connect thousands of IoT stakeholders from across the globe. The IoT Evolution brand is the go-to resource for anyone innovating and leading the way in the IoT space. For more information, contact Scott Kargman at Scott@crossfiremedia.com.
Featured Product
Elmo Motion Control - The Platinum Line, a new era in servo control
Significantly enhanced servo performance, higher EtherCAT networking precision, richer servo operation capabilities, more feedback options, and certified smart Functional Safety. Elmo's industry-leading Platinum line of servo drives provides faster and more enhanced servo performance with wider bandwidth, higher resolutions, and advanced control for better results. Platinum drives offer precise EtherCAT networking, faster cycling, high synchronization, negligible jitters, and near-zero latency. They are fully synchronized to the servo loops and feature-rich feedback support, up to three feedbacks simultaneously (with two absolute encoders working simultaneously). The Platinum Line includes one of the world's smallest Functional Safety, and FSoE-certified servo drives with unique SIL capabilities.