> our title:

ST Engg, NTU Launch Advanced Robotics Lab

> original title:

ST Engineering and NTU Launch Laboratory for Advanced Robotics and Autonomous Systems

(Source: ST Engineering; issued April 30, 2015)


SINGAPORE --- ST Engineering and Nanyang Technological University, Singapore (NTU Singapore) have set up a joint research lab to develop advanced robotics and autonomous systems that will improve airport operations and disaster rescue efforts.

The ST Engineering-NTU Corporate Laboratory was officially launched today by Guest-of-Honour Deputy Prime Minister Teo Chee Hean, who is also the Chairman of the National Research Foundation (NRF).

The joint laboratory which will receive S$53 million in funding is supported by the NRF Singapore under its Corporate Laboratory@University Scheme which supports the setting up of key corporate laboratories via public-private partnerships.

This partnership will generate new products and services through the development of new technologies, increase employment opportunities for researchers and scientists and provide greater exposure for students in industrial R&D.

NTU Provost, Professor Freddy Boey said, “The ST Engineering-NTU Corporate Laboratory will combine both NTU’s and ST Engineering’s expertise in robotics and autonomous systems. NTU has been especially successful in industry-relevant research and an initiative like this corporate lab allows us to develop robust and practical solutions that will benefit society, ease manpower challenges and create higher value jobs for Singaporeans.”

ST Engineering President & CEO, Tan Pheng Hock said, “The vision for the ST Engineering-NTU Corporate Lab is to develop the next generation of robotics and autonomous systems that can be applied to various areas such as healthcare, urban development, transportation, environmental conservation as well as defence and homeland security. These will be solutions that will improve and impact our everyday lives.”

NRF CEO, Professor Low Teck Seng said, “We are glad that the NRF Corporate Lab @ University scheme enables NTU researchers, PhD and Master’s students to work alongside ST Engineering to translate robotics research projects into new products and services. These same robotics and automation technologies can also be adapted to develop new capabilities for other sectors as well as to be deployed to improve the lives of Singaporeans.”

The two main research areas of the ST Engineering-NTU Corporate Lab will be in airport precision and airside technology (such as baggage transfer systems, aerobridges and aircraft tow trucks) and in enhancing intelligence support for crisis management.

Professor Lam Khin Yong, NTU’s Chief-of-Staff and Vice President (Research), said: “The two key areas of research in the corporate laboratory draw on the strengths of both NTU and ST Engineering as we both have strong capabilities in engineering and in the translation of research into industry applications. We are also long-time partners and this new corporate laboratory takes our partnership to a higher level.”

Mr Fong Saik Hay, Chief Technology Officer, ST Engineering said: "With ST Engineering Group’s domain knowledge in engineering and deep expertise in the development of mission critical systems, we are confident to advance the technologies from research to the market."

Next generation of airport operations

The joint research aims to develop advanced robotics and autonomous system technologies – systems that can collect data and make decisions on their own. These systems can transport luggage from the check-in counter to the baggage claim area in the most efficient way, minimising the number of human operators.

Airport operations are extremely labour intensive today, with labour cost forming 70 per cent of the total operation costs. Luggage from airport terminals is currently loaded manually on to trailers and driven to aircrafts, then moved by luggage handlers to the aircraft’s cargo compartment.

The increasing labour cost and manpower constraints underscore the need for advanced robotics and smart systems, especially when airports worldwide are embarking on expansion.

Such systems will also help to enhance the efficiency and safety of aerobridge operations and aircraft tow trucks. The technology is also applicable to logistics companies, where robotic systems can be used to move large items.

Enhancing disaster rescue missions

A disaster-struck environment can be unsafe for humans. A smart robot, however, can navigate its way, making search-and-rescue missions safer and more effective.

Using sensors such as vision and laser rangefinders that measure the distance to an object, the robot can create a map of the unknown environment. The smart robot will automatically search and locate survivors and their vital signs in the disaster zone, unlike current robots which have to be remotely controlled.

Through advanced computer algorithms, the robot will be able to convert sensor data to images that its human operators can easily understand.

With such advanced capabilities, crisis responders would be able to optimise tasks and deploy resources under challenging conditions during disasters.

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