Press Releases

FEBRUARY 2020 – According to the latest findings from a Driverless Mobility Dialogue, most Singaporeans are ready to embrace the introduction of autonomous vehicles (AVs) on the road.     TUMCREATE and the Singapore University of Technology and Design (SUTD) worked together to conduct a Driverless Mobility Dialogue, with 60 Singaporeans from all walks of life, to better understand Singaporeans’ expectations and perceptions of AVs in Singapore. Data collected from the dialogue were then analysed and compared at a global scale among 17 cities[1].   Based on one of the evaluation categories, Singapore ranked first, tied with Salzburg, as the most optimistic city towards driverless mobility. Most Singaporeans had used positive keywords like ‘exciting’ and ‘forward’ to describe their views on having AVs on the road. Among the 17 cities, Singapore also scored the highest for the level of trust in government across all six issues, namely, Privacy, Infrastructure, Justice/Equity, Cybersecurity, Safety and Environment.   The data collected showed that improvement in convenience and efficiency for transportation were some of the expectations by Singaporeans. A mixed sentiment was presented for the considerations on safety and cost where the two were indicated to be a cause for both hope and concern. On the type of AV deployment scenario, 92% of Singaporeans preferred the deployment of driverless mobility in a public transport model. Globally, an average of 90% of the participants from all cities agreed on the deployment of driverless mobility in a public transport model while only 25% wished for individual ownership of driverless cars.   “It is encouraging that many support the deployment of autonomous vehicles in public transport in cities, as opposed to driverless personal cars. In compact cities like Singapore, shared use of AVs makes sense to enhance mobility opportunities for all,” said SUTD Associate Professor for engineering systems and design, Lynette Cheah, a co-organiser of the event.   “This dialogue was a great opportunity to hear about the hopes and concerns for driverless mobility from people all over the world as they are, ultimately, the users of the technology” said Dr Henriette Cornet, Principal Investigator at TUMCREATE. She added, “With plans to expand testing grounds for AVs in Singapore, it is good to know that Singaporeans are very optimistic about going driverless, but we would need to tread carefully on aspects like safety, infrastructure and privacy protection.”   Dr Cornet and Associate Professor Cheah, supported by Penny Kong from TUMCREATE and Dr Samuel Chng from the Lee Kuan Yew Centre for Innovative Cities at SUTD, are currently working on a scientific publication based on the results analysis. Ms Kong and Dr Chng were also involved in organising the Driverless Mobility Dialogue. Results from the dialogue will be released for public access through TUMCREATE website and social media platforms.   [1] The 17 cities include: Vienne, Pörtschach, Linz, Salzburg, Graz, Aachen, Paderborn, Boston, Washington, Buffalo, Phoenix, Lille, Montreal, Manchester, Lisbon, Cascais and Singapore.     About TUMCREATE TUMCREATE is a research platform geared towards the improvement of Singapore’s public transportation, including the deployment of electric and autonomous mobility. Researchers from the Technical University of Munich (TUM) and Nanyang Technological University (NTU) join forces, with the aim of significantly improving the public transport mobility of the nation. TUMCREATE is funded by Singapore’s National Research Foundation (NRF) as part of the Campus for Research Excellence And Technological Enterprise (CREATE).   About Singapore University of Technology and Design The Singapore University of Technology and Design (SUTD) is Singapore’s fourth public university, and one of the first universities in the world to incorporate the art and science of design and technology into a transdisciplinary, human-centric curriculum. SUTD seeks to advance knowledge and nurture technically-grounded leaders and innovators to serve societal needs. SUTD also recently topped a list of emerging engineering schools in the world in a study conducted by MIT. A research-intensive university, SUTD is distinguished by its unique East and West academic programmes which incorporate elements of innovation, entrepreneurship, design thinking and local and international industry collaborations. SUTD will focus in key areas – Healthcare, Cities and Aviation, supported by capabilities in Artificial Intelligence/Data Science and Digital Manufacturing. Multiple post-graduate opportunities are available. In addition, skill-based professional education and training courses are also available at SUTD Academy.   For media queries, please contact: TUMCREATE Brenda Yap Media and Communications Email: brenda.yap@tum-create.edu.sg   Singapore University of Technology and Design Jessica Sasayiah Marketing and Communications Email: jessica_sasayiah@sutd.edu.sg

MUNICH, 16 October 2017 – TUMCREATE’s electric scooter for cargo delivery, known as LEO, won the eMove360° award 2017 in the ‘Electric Vehicles’ category.   The international award was presented in six categories: Mobility Concepts & Software, Energy Storage, Charging Infrastructure, Powertrain, Automated Driving, and Electric Vehicles. LEO was hailed a winner alongside Robert Bosch GmbH, Rolls Royce and Daimler AG who received awards in other categories.   TUMCREATE’s interdisciplinary team of engineers and designers has jointly developed and built a unique 3-wheeled electric scooter for cargo handling and delivery operations in megacities. This work was done in collaboration with Singapore Post Ltd. (SingPost), the Singaporean postal services and ecommerce logistics provider.   With the increase of e-commerce, the postal volume for delivery has been consistently increasing. Catering to this growth, the delivery vehicles have to upgrade their carrying capacity as there has been a significant rise in the fleet mileage and hence the impact of these delivery vehicles on urban congestion and pollution is a growing concern. On the other hand, higher postal volume and increasing complexity of delivery logistics have led to inefficient and arduous warehouse operations.     Considering these challenges, LEO was designed with the following features: Portable cargo compartment for improved cargo handling Modular battery system enabling cost optimisation for the vehicle fleet Compact vehicle-platform for fast-agile and emission free urban utility Smart connectivity for increasing resource efficiency   1. Portable cargo compartment Currently, a micro transportation gap exists within cargo handling operations. The cargo arrives in warehouses, where it is stored and processed. This cargo needs to be transported to the vehicles which ultimately deliver it. This micro transport from the warehouse to the vehicle can be highly time, effort and finance consuming depending on the type of cargo handled. The portable cargo compartment designed for LEO can be detached and attached within seconds on press of a button and can be rolled inside the building where cargo is directly sorted into this compartment. For SingPost this solution improves their workflow saving 40 minutes of time and effort per post officer per day.     2. Modular battery system The battery is the most expensive and a considerably heavy component in an electric vehicle. Postal services have very predictable operations. They have fixed delivery zones and driving distances, hence a single battery pack designed for the maximum distance would be underutilised in many cases adding unnecessary cost and weight. Hence, a modular battery pack is a solution enabling cost optimisation over the entire vehicle fleet. A fleet manager can configure the vehicles to have a range of either 35 km or 70 km without compromising on vehicle performance.   3. Compact vehicle-platform for urban utility Urban delivery vehicles should be agile. They need to travel quickly through traffic and narrow streets while carrying high payloads and volumes for making deliveries on time. The current market offers several cargo scooters which may be agile but are not suitable for high payloads and volumes. The 4-wheelers on the other hand can carry heavy cargo and big volumes but get affected by urban congestion and have difficulties finding parking spaces. LEO addresses this issue with a compact 3-wheel platform with a footprint fitting within a standard 2-wheeler parking lot. It features a tilting rider cabin and has a cargo carrying capacity of 600 litres – 120 kg payload. The tilting rider cabin is independent of the cargo compartment which always stays upright. This makes it very comfortable, safe and intuitive for the rider to weave through traffic while carrying heavy cargo at the rear. With its electric powertrain, LEO is locally emission-free and quiet.     4. Smart connectivity The instrument cluster developed for LEO integrates useful functions into its dashboard like fleet monitoring, real-time parcel tracking, GPS routing and real-time camera recording. This enables the fleet manager to optimise delivery operations using dynamic routing, instant push notifications and vehicle tracking.     LEO fills a gap in the current transportation system for cargo delivery and anticipates the future needs of this service regarding efficiency, environmental and social impacts. Field trials were conducted successfully together with SingPost in March 2017 as a first step toward implementation and concept validation, where LEO was used in the ‘real world’ for routine delivery operations in Singapore for two weeks. LEO received a very positive feedback from its primary users, the post officers. Furthermore, it maximises operational comfort for the post officers with its innovative features and helps escalate the acceptance of this routine job, thus producing a significant social impact.   Prof. Ulf Schlichtmann, Professor at the Technical University of Munich (TUM) and TUMCREATE Programme Director, said: “We congratulate the research team involved in the development of LEO. Clinching this award shows what can be accomplished with a strong research background based on innovative German Engineering coupled with Singapore as a perfect test bed for fresh concepts. Smart mobility is an important part of our future. The dedicated TUMCREATE team has demonstrated again that it is committed to play a key role in keeping Singapore at the forefront of urban mobility.”   Dr. Thomas Aulig, Corporate Director of TUMCREATE, said: “LEO’s development period of 12 months was directly supported by TUMCREATE Chief Executive Officer Prof. Maria-Elisabeth Michel-Beyerle and the management team. The customised vehicle increases living quality through the reduction of carbon dioxide and noise emissions in residential zones.” About eMove360° Award The future of the mobility is electric, connected and autonomous – it belongs to Mobility 4.0. According to surveys the market potential of the “New MobilitY” is estimated to grow up to 115 Billion Euro until 2020 – which is four times as much compared to its current level.   We extensively reflect this development with eMove360° Europe 2018 – International Trade Fair for Mobility 4.0 – electric – connected – autonomous. Under this forward-thinking umbrella brand name we have united our trade fair topics Electric Mobility, Connected & Autonomous Driving as well as Materials & Design

Engineers at TUMCREATE in Singapore have developed an electric motor which can be easily attached to almost any bicycle, turning it into a pedelec (pedal electric cycle). The drive device is so light that it can be taken along easily before and after use. It was designed for commuters who ride their bikes to work. The TUMCREATE researchers have already tested an initial prototype of their product, which they’ve dubbed “ease”.   Commuting to work by bike is particularly common in major cities. This can turn into a strenuous undertaking, depending on the weather, the route travelled and the individual’s mood. When the ride gets difficult, many cyclists might wish they had the help of an electric motor. But the high price of a conventional pedelec is an obstacle for many riders who might not want to simply lock up such an expensive bike on the street.   Felix Römer is a doctoral candidate at Singapore’s TUMCREATE, a research facility run jointly by TUM and Nanyang Technological University (NTU). Almost every day he rides his bike to the next subway station, where he continues his commute to work. Riding a bicycle in Singapore’s hot and humid climate is not always pleasant. This gave Römer the idea of developing a flexible electric motor that can easily be attached to any bicycle.    Many components in a single housing   “There have already been several attempts to do something similar, but most of them require modification of the bicycle,” Römer says. “The effort involved discourages many potential users.” Furthermore, these units often only fit specific bicycles or wheel rims. This led Römer and Master’s students Marius Mrosek and Simon Schmalfuss to develop a completely self-contained device.   The largest challenge the team faced was fitting the necessary components such as the motor, storage battery and sensors into a single compact housing. “For example, we need optical sensors that detect when the pedals are being pushed,” says Römer. Most pedelecs feature these sensors permanently installed in the bicycle’s bottom bracket. “It took quite a lot of time and trouble to get everything to work properly without cables or additional equipment.” In addition, legal regulations for pedelecs require the ability to detect the movement of the pedals.    In legal terms, pedelecs considered equivalent to bicycles and can be operated without insurance indicators, registration or a driver’s license.    The device features a lithium storage battery enabling a range of up to 50 kilometers, depending on performance requirements, and which recharges in only a few hours. The motor is capable of generating 250 watts and automatically switches off when the bicycle’s speed reaches 25 kilometers per hour. These aspects are also required by law.   Mounted in under ten seconds   The engineers have already developed a functional prototype that weighs 3.5 kilograms and can be folded at a joint in the middle. The cyclist can easily carry the unit in a backpack.    It can be fastened to the bicycle using a cable loop which is hooked onto the frame and attached with a rotating knob – in under ten seconds. “Nothing stays on the bicycle after the unit has been removed,” says Römer. The scientists spent a long time tinkering with the unit before they came up with a design that fits various differently shaped bike frames. It can be mounted with equal ease on either side of the bicycle. The device automatically detects the side on which it has been installed.   Practical solution for commuters    Römer doesn’t consider the “ease” to be in direct competition with conventional pedelecs. “Our product is suitable for those whose daily commute to work is too long for a bicycle, but for whom buying an expensive Pedelec capable of longer ranges isn’t practical.”    The team is already working on improvements. “After the first tests we received feedback indicating that some riders bumped into the unit with their shoes,” says Römer. The initial mistakes have been corrected and the unit has been optimized. The scientists are hoping for support from an industry partner for further developments. Only then, they point out, will it be possible to estimate how much the “ease” will cost. The scientists have already applied for a patent for their invention.    About TUMCREATE:   TUMCREATE is a research platform for the improvement of Singapore’s public transportation, including the deployment of electric and autonomous mobility. Researchers from the Technical University of Munich (TUM) and Nanyang Technological University (NTU) join forces and are supported by the National Research Foundation (NRF) as part of the Campus for Research Excellence and Technological Enterprise (CREATE). TUMCREATE is made up of over 100 scientists, researchers and engineers led by professors from TUM and NTU. For more information, visit www.tum-create.edu.sg.    CREATE is an international collaboratory housing research centres set up by top universities. At CREATE, researchers from diverse disciplines and backgrounds work closely together to perform cutting-edge research in strategic areas of interest, for translation into practical applications leading to positive economic and societal outcomes for Singapore. The interdisciplinary research centres at CREATE focus on four areas of interdisciplinary thematic areas of research, namely human systems, energy systems, environmental systems and urban systems. More information on the CREATE programme can be obtained from www.create.edu.sg.     Contact: Dipl-Ing. Felix Römer TUMCREATE 1 CREATE Way, #10-02, CREATE Tower, Singapore 138602 T: +65 9778 8739 (SG) E:  felix.roemer@tum-create.edu.sg https://www.easecycle.com/

SINGAPORE, 24 March 2017 – Singapore Post Limited (SingPost) and TUMCREATE will on 28 March 2017 commence a road trial of a prototype electric three-wheeler that is environmentally friendly and features innovations to boost mail delivery efficiency.   Developed by researchers with the support of the management team at TUMCREATE, in conjunction with SingPost, the customised vehicle will serve as a test bed for concepts that will guide SingPost’s application of electric vehicle technology for postal operations and eCommerce logistics.   The three wheeler has been designed to streamline postal processes, improve rider experience and reduce greenhouse gas emissions. SingPost currently operates a fleet of 674 petrol-driven scooters for last mile postal delivery. Of these, about half are three-wheelers, which offer greater ride stability and load capacity than conventional two-wheelers.   Mr Tan Tien Po, SingPost Senior Vice President for Domestic Mail, said, “Innovation and the application of new technologies is how we improve SingPost’s services and meet the evolving postal needs of Singapore. We are excited to take this step forward with TUMCREATE, towards realising an urban logistics solution that addresses the future needs of mail and eCommerce logistics, increasing demands for fast and flexible delivery, and the growing need for environmental sustainability.”   Prof Ulf Schlichtmann, Professor at Technical University of Munich (TUM) and TUMCREATE Program Director, said: “I am really excited about this innovative vehicle for Singapore which our dedicated TUMCREATE team has developed in cooperation with SingPost. It has been a very rewarding collaboration, and we feel that Singapore will benefit from our research expertise which is backed up by TUM’s strong track record in vehicular technology, especially electrically powered vehicles.”   The vehicle’s all-electric drive produces zero local exhaust emissions and, with relative simplicity and fewer moving parts compared with combustion engines, reduces maintenance costs and downtime. Additionally, it offers near-silent operation, thus curbing noise disturbance, especially during deliveries in residential areas.   Modular batteries, the costliest component of the vehicle, were developed by TUMCREATE so that fleet cost may be optimised by matching battery capacity to the route on which the vehicle is deployed. By changing the battery configuration, the vehicle’s range may be configured to 35 kilometres, which is sufficient for an average mail delivery route – or 70 kilometres, which will satisfy almost all postal delivery trips made.   Operating costs as well as battery end-of-life management may be further minimised by incorporating regular charging into routine overnight parking of postal vehicles at delivery bases, thus avoiding the battery degradation caused by fast charging, and the cost of fast chargers.   The vehicle features a specially designed storage system that can reduce a postman’s daily delivery routine by up to 40 minutes. This is achieved through a detachable, rollable storage box that the postman may pack at his mail sorting station, wheel to the vehicle, and load up on the vehicle with the help of a motorised hoist. Packing and unpacking is cut down as the postman no longer requires a separate trolley to transport mail from sorting station to his delivery vehicle. The box, at 567 litres, offers 23 per cent more carrying capacity than those on existing postal scooters. This enhances delivery efficiency, especially as postal services are used increasingly for eCommerce delivery.   For environmental sustainability, the sidewalls of the box are made from an advanced bamboo composite developed by advanced fibre composite material researchers under the Future Cities Laboratory at the Singapore-ETH Centre. Bamboo is durable, grows fast and is recyclable.   Manoeuvrability and stability when cornering is improved by an articulated tilt mechanism that allows the rider cabin to lean into a turn, independent from the rear cargo section. This increases the vehicle’s agility and reduces steering effort and counteracts cornering forces. While parked, the tilt mechanism is locked to ensure a stable position on three wheels without a kickstand.   The electric three-wheeler is equipped with a smart instrument cluster that includes dynamic GPS routing for priority deliveries and optimised delivery routing, fleet monitoring for data collection and management, integrated cameras, and on-demand tracking.   The trial will take place along two delivery routes between SingPost’s Ayer Rajah Regional Delivery Base and the National University of Singapore and end on 7 April 2017. Three SingPost postmen have been assigned to provide real-world feedback for further development, while a manufacturing partner is being sought to convert the prototype into a market-ready product.   About Singapore Post Limited   For over 150 years, Singapore Post (SingPost) as the country’s postal service provider, has been delivering trusted and reliable services to homes and businesses in Singapore.   Today, SingPost is pioneering and leading in eCommerce logistics as well as providing innovative mail and logistics solutions in Singapore and around the world, with operations in 19 markets.   Building on its trusted communications through domestic and international postal services, SingPost is taking the lead in end-to-end integrated and digital mail solutions. The suite of SingPost eCommerce logistics solutions includes front end web management, warehousing and fulfilment, last mile delivery and international freight forwarding.   SingPost has been listed on the Main Board of the Singapore Exchange since 2003. The market capitalisation of SingPost stood at S$3.53 billion as of 31 March 2016.   About TUMCREATE   TUMCREATE is a research platform for the improvement of Singapore’s public transportation, including the deployment of electric and autonomous mobility. Researchers from the Technical University of Munich (TUM) and Nanyang Technological University (NTU) join forces and are supported by the National Research Foundation (NRF) as part of the Campus for Research Excellence and Technological Enterprise (CREATE). TUMCREATE is made up of over 100 scientists, researchers and engineers led by professors from TUM and NTU. For more information, visit www.tum-create.edu.sg.   CREATE is an international collaboratory housing research centres set up by top universities. At CREATE, researchers from diverse disciplines and backgrounds work closely together to perform cutting-edge research in strategic areas of interest, for translation into practical applications leading to positive economic and

TUM CREATE officially launched its new campus at the Campus for Research Excellence and Technological Enterprise (CREATE) at University Town during an opening ceremony today. Its new and bigger location paves the way for closer collaboration among its 10 research teams, as they develop and build the first electric vehicles specifically for a tropical city, here in Singapore.   TUM CREATE is a joint research programme between Germany’s Technische Universität München (TUM) and Singapore’s Nanyang Technological University (NTU), funded by Singapore’s National Research Foundation (NRF).   Through its research in Singapore, TUM CREATE aims to contribute to the local human, intellectual and industrial capitals by training talents, innovating new technologies, forging partnerships and knowledge-sharing.   “The building-up of our scientific community from both countries (Singapore and Germany) brings valuable knowledge and opportunities to the local industry in Singapore. As part of our contribution to this wonderful country, we envision also to train Singaporean talents and develop cutting-edge technologies in cooperation with local partners,” Senior Vice-President of TUM Prof. Thomas Hofmann said.   TUM CREATE’s new campus features state-of-the-art laboratories and an automotive workshop that houses more than 100 research scientists and engineers from over 20 countries. With research ranging from the molecule to the megacity, TUM CREATE is at the forefront of inter-disciplinary research in new battery materials, Electric Vehicle (EV) design, computer modelling and simulations, and transportation systems design.   With the launch of the campus, research and development are at full steam as TUM CREATE’s scientists are able to access advanced facilities. These include some of the Southeast Asia’s firsts, which will increase Singapore’s profile in the R&D landscape across the region:   High-power battery tester: This will be the region’s first battery cycler for EV battery packs and modules. Battery Safety Laboratory: The first in Southeast Asia that is capable of safely studying high-energy EV battery cells under various charging conditions.   Bridging Ties, Exchanging Views   While spearheading sustainable mobility research in Singapore, TUM CREATE will engage and train the brightest local talents. Apart from academic staff from TUM in Germany, there are 23 NTU faculty members who actively supervise and contribute to the research at TUM CREATE. The programme also allows doctoral students from TUM and NTU, who are working towards their PhDs, to conduct their research on different aspects of electromobility. These PhD degrees are jointly conferred by TUM and NTU.   With the launch of the Graduate Center TUM CREATE, these doctoral students will be able to further enrich their education with the possibility of attending exchange programmes at the TUM Graduate School in Garching, Germany, a city near Munich. These students are able to share views and experiences with colleagues of various faculties when attending “soft skills” courses offered during these trips. This will prepare them to become future leaders in industry and academia.   President of NTU Professor Bertil Andersson said that the launch of the new Graduate Center TUM CREATE is very timely.   “It will offer new opportunities for NTU and TUM PhD students here to interact with other TUM doctoral students in Germany,” he said. “At a time where the evolving labour markets around the world require future leaders to hold a holistic outlook that is not just limited to their own disciplines or countries, the Graduate Center TUM CREATE places strong emphasis on interdisciplinary and international programmes that develop team leadership, project management skills and entrepreneurial spirit.”

The world’s first electric taxi for tropical megacities has been launched.   Named EVA, the electric taxi is built by TUM CREATE, a collaboration between Nanyang Technological University (NTU) and one of Europe’s top universities, Germany’s Technische Universität München (TUM). The project is supported by the National Research Foundation, Prime Minister’s Office, Singapore.   Gracing the unveiling ceremony is His Excellency Dr Michael Witter, Ambassador of the Federal Republic of Germany, accompanied by NTU President Professor Bertil Andersson and TUM Vice President for Research and Innovation Professor Thomas Hofmann.   Professor Bertil Andersson said the EVA Electric Taxi project is a good example of future electro-mobility and its possibilities, achieved by leveraging NTU’s established track record in application-driven engineering and TUM’s deep expertise in electro-mobility.   “NTU is at the forefront of sustainability research and we had identified electro-mobility as one of the solutions necessary to tackle climate change. Our success in building an electric car for the tropics is a big step forward in realising our vision for a more sustainable future for everyone,” said Prof Andersson.   “Equally significant is that EVA is the first car ever designed, developed, and manufactured locally. While Singapore is not an automotive manufacturing country, the nation’s economy will definitely benefit in the long run through technology transfer. We are now among the leaders in electro-mobility systems and will be able to offer our knowledge and services to the automotive industries in this region.   “Through TUM CREATE, we have also trained local talent and built a pool of electro-mobility experts who will be in strong demand, given that the electric vehicle production globally is expected to rise rapidly over the next decade.”   TUM CREATE Chief Executive Officer Professor Maria-Elisabeth Michel-Beyerle said many of the technologies researched and used in building EVA, such as its specially tailored fast-charging battery system, had yielded innovations beneficial to the automotive industry.   “Through EVA, this partnership between TUM and NTU has led to the development of several technology innovations which has caught the attention of the automotive industry,” said Prof Michel-Beyerle.   “Last year EVA received the eCarTec Award, the Bavarian State Prize for Electromobility at the eCarTec, the world’s largest electromobility fair held in Munich, Germany. We are also now in discussions with some companies who are interested to commercialise our innovations.”   Prof Michel-Beyerle highlighted that EVA’s achievements are even more significant as it was built here in two years by a small team of about 40 researchers, who were mostly PhD students from about 20 nationalities. In contrast, car manufacturers typically have huge work teams with vast experience at their disposal to design and build concept cars.   EVA’s suitability for Singapore   The research team’s decision to build an electric taxi fitting Singapore’s climate was for very practical reasons.   By replacing fuel-burning vehicles with electric-powered ones, carbon emissions as well as local noise and exhaust emissions can be reduced.   Existing taxis also have far greater impact on the environment compared to private passenger cars. In Singapore, taxis make up less than 3 per cent of the vehicle population. Despite their small numbers, they account for 15 per cent of the total distance covered by all vehicles in Singapore.   Many taxis run on two-shift rotation for up to 24 hours every day, covering an average of 520 km.  In addition, transportation companies around the world typically re-purpose passenger cars as taxis.   Professor Markus Lienkamp, the Scientific Advisor Director at TUM CREATE who planned the EVA project from conception to its eventual completion, said the research team had set out four years ago asking very important questions such as whether electric vehicles would be feasible for public transport systems in megacities.   “Many of the public transportation vehicles today are re-purposed from their original design as passenger cars and vans, into taxis and shuttle buses,” said Prof Lienkamp, who is also the Director of Research for TUM’s Munich School of Engineering and the Science Center for Electromobility.   “Now that we have proven that it is possible to design vehicles for specific purposes of public transport, it has opened up new questions for us to explore, mainly how  purpose-built electric vehicles would fit into the whole transport eco-system together with the trains and buses, and these solutions can reduce travelling times and energy usage used for transportation.”   Professor Lam Khin Yong, NTU’s Chief of Staff and Vice President for Research, said many of EVA’s innovations can also be applicable and deployed to other industry sectors in Singapore, such as its energy-efficient air conditioning system and lightweight carbon-fibre composites.   “Due to the hot and humid weather in the tropics, a significant amount of energy is consumed by the air conditioning system in automobiles,” said Prof Lam, who is also the Co-Scientific Advisor Director at TUM CREATE.   “The innovative energy efficient air conditioning solutions deployed in EVA, like its new energy-efficient compressor technologies, can be adopted in both current and future vehicles to reduce their carbon footprint.   “In addition, NTU’s key research projects at the Energy Research Institute such as our inductive wireless charging technology, a good alternative to the current plug-in conductive charging, are also successfully installed in EVA.”   EVA’s innovative design   EVA’s fast-charging battery system is able to give it a range of up to 200 kilometres with just a 15-minute recharge. Despite having to house a large battery pack, EVA is actually 150kg lighter than other comparable-sized taxis due to its lightweight carbon-fibre composites.   Its ergonomically designed seats are equipped with a purpose-built system where moisture and heat are sucked away from the surfaces of the seat, so as to maximise comfort for passengers.   The front passenger seat can also be folded forward to reveal an integrated child seat for children aged 9 months to 3 years old, filling the void in the area of safety for young taxi passengers   The climate controls, in-car entertainment, booking and digital

TOKYO, JAPAN (21 November 2013) — TUM CREATE has unveiled its electric taxi prototype, codenamed EVA, at the 43rd Tokyo Motor Show today. It will be on display at Booth 8 in West Hall 4 of the Tokyo Big Sight from 22 November to 1 December 2013.   • Features 15-minute super-fast charging as solution to EV range challenge • Extensive use of energy- and weight-saving materials and technologies • Infotainment system allows passengers to control climate and audio via mobile devices   EVA serves as a platform to showcase the results of the innovations and developments at TUM CREATE, a joint research programme by Technische Universität München (TUM) and Nanyang Technological University (NTU).   A key highlight is the car’s super-fast charging system. It is designed to be recharged in just 15 minutes to cover a realistic range of 200 km (based on Singapore driving patterns), which will be an industry benchmark. Other features found on EVA include the extensive use of lightweight materials and energy-saving solutions such as individualized overhead air-conditioning.   Professor Dr. Wolfgang A. Herrmann, President of Technische Universität München, said, “This new electric taxi for tropical mega cities, developed and constructed by two leading universities, highlights the successful collaboration of TUM and NTU. The scientific and technological breakthroughs are based on a spirit of mutual trust and understanding. For more than ten years, Technische Universität München has been operating its branch TUM Asia in Singapore, which has a current enrolment of 380 students and produced hundreds alumni. It is a great joy for me to see that our untiring joint efforts, supported by the National Research Foundation, have borne fruits now.”   Professor Bertil Andersson, NTU’s President, said the technological innovations developed for EVA is a great demonstration of how two of the world’s top engineering universities can successfully collaborate to combine their expertise and knowledge to solve the tough challenges of today. “NTU’s deep expertise in energy technologies, such as battery systems, wireless charging, and materials science, in combination with TUM’s strengths in automotive and electromobility, gave our research team a strong platform in which to design and build EVA on,” Prof Andersson added. “A robust and energy-efficient electric taxi for use in real world conditions is testimony of our strengths in engineering and how we apply it to make a difference. It is also a reminder to the world that it is essential for all of us to play a part for our environment and such R&D efforts is an investment towards a more sustainable future for everyone.”   Transportation companies around the world typically re-purpose passenger cars as taxis. However, the challenge of current electric vehicles is the extremely limited range and long recharge times (up to 8 hours), making them impractical as taxis. TUM CREATE aims to address these issues, as well as the unique challenges posed by the heat and humidity in tropical megacities, through its research and development. Unlike temperate climates, passenger cooling and battery pack heat management are issues specific to tropical and equatorial regions.   As a form of public transportation, introducing e-taxis into the local taxi fleets has a high leveraging effect to decrease carbon emissions.   “While taxis account for less than 3% of the vehicle population in Singapore, they contribute to 15% of the total distance travelled,” explains Principal Investigator Dr. Daniel Gleyzes. “The average two-shift taxi covers over 500 km a day.”   EVA was designed from the ground-up as an e-taxi and is a result of interdisciplinary research in the areas of energy storage, battery charging, thermal management, and lightweight materials and design.   TUM CREATE is funded by the Campus for Research Excellence And Technological Enterprise (CREATE) programme under the National Research Foundation (NRF), an agency of Singapore’s Prime Minister’s Office.   Professor Low Teck Seng, NRF’s Chief Executive Officer, said, “The launch of this prototype electric-vehicle today marks a major milestone for TUM CREATE. In the short time since TUM and NTU came together at CREATE in 2010 with support from the NRF, they have developed strong research and engineering capabilities in e-vehicular technology resulting in this demonstrator.  With EVA, we have a public commuter car that is green, energy-efficient, and tailored for a tropical urban environment. We look forward to this partnership strengthening in the years to come.”   This project milestone marks the first time that a Singapore-based organization is participating and presenting a vehicle in the 59-year history of Asia’s most important automotive tradeshow.   EVA feature highlights: • Super-fast charging; • Individualized air-conditioning; • Interactive infotainment system; and • Integrated child-seats.   EVA’s super-fast charging system is designed to achieve a re-charge in just 15 minutes. This allows the car to be driven for 200 km with the air-conditioning switched on, based on the driving patterns of Singaporean taxis collected by TUM CREATE. With its fast recharge times, EVA can achieve long ranges with short downtimes — as charging can be performed during the driver’s rest breaks.     Apart from tackling the energy storage and battery charging challenges, EVA will also feature innovations that are particular to tropical climates. TUM CREATE’s researchers have developed an individualized, overhead air-conditioning system with which they target to reduce the cabin cooling power. Ergonomics studies have shown that localized cooling has a direct impact on the overall thermal comfort. The overhead outlets and the seat ventilation target these areas to create better thermal comfort without the need to cool down the whole cabin. Unoccupied zones can also be switched off to further reduce energy consumption. Interestingly, this system also reduces the exposure of air-borne particles or germs from being blown from one seat to another zone in the vehicle.   Besides the cabin cooling system, EVA’s innovative seats provide a maximum comfort for both the driver and passengers driving in humid tropical climate. The ergonomically designed seats are equipped with a purpose-built system where suction draws away moisture and heat from the surfaces of the seat. In addition,

SINGAPORE (3 September 2013) — TUM CREATE will present a purpose-built electric taxi, codenamed EVA, at the 43rd Tokyo Motor Show at West Hall 4 of the Tokyo Big Sight (Tokyo International Exhibition Center) from 22 November to 1 December 2013. This prototype vehicle is a platform to showcase the results of the research and development carried out by the Singapore-based institution.   This project milestone marks the first time that a Singapore-based organization is participating and presenting a vehicle in the 59-year history of Asia’s most important automotive tradeshow   EVA was designed from the ground-up as an e-taxi and is a result of interdisciplinary research in areas such as energy storage, battery charging, thermal management, and lightweight materials and design. A key highlight is the car’s super-fast charging ability. Our engineers have developed a battery pack that can be recharged in 15 minutes to achieve a realistic range of 200 km with the cabin air conditioner switched on. The range is calculated based on data collected by our researchers who tracked driving patterns of Singaporean taxi drivers. With minimal downtime for charging and a high range, TUM CREATE’s solution will set a benchmark in EV technology.   Transportation companies around the world typically re-purpose passenger cars as taxis. However, the challenge of current electric vehicles is the extremely limited range and long recharge times (up to 8 hours), making them unsuitable as taxis. TUM CREATE aims to address these issues, as well as the unique challenges posed by the heat and humidity in tropical megacities, through its research and development. Unlike temperate climates, passenger cooling and battery pack heat management are issues specific to this part of the world.   EVA is an interdisciplinary project as part of the diverse research and development undertaken at TUM CREATE. Funded by the National Research Foundation, an agency of the Prime Minister’s Office, TUM CREATE is a joint electromobility project between two world-leading universities Technische Universität München (TUM) and Nanyang Technological University (NTU).

• Cutting-edge equipment including some that are seen for the first time in Southeast Asia • Research focus on battery material, safety and pack engineering • Research to further build knowledge base and competencies in Singapore   TUM CREATE, a joint research project between Technische Universität München and Nanyang Technological University, has opened its state-of-the-art battery laboratory at the Campus for Research Excellence And Technological Enterprise (CREATE) at University Town today.   The new laboratory boasts cutting-edge equipment including some that are seen for the first time in the region. These include:   • Battery abuse chamber; • High capacity battery cycler; and • Walk-in climate chamber.   The laboratory was officially opened, marked by a ribbon-cutting ceremony with National Research Foundation Deputy CEO Philip Ong, CREATE director George Loh, TUM CREATE Scientific Director Professor Harry Hoster and Corporate Director Dr Thomas Aulig.   “With our new equipment ready, we are able to conduct more detailed and in-depth studies and research into battery material and safety at the cell level, as well as develop new battery pack technologies for the future,” said Prof. Hoster. “There has been a lot of research done on battery material in Singapore, but not much has been done at the cell and battery engineering levels. Our research spans from the electrodes to battery packs to integration into electric vehicles.”   Scientists, researchers and engineers, who had been working at TUM CREATE’s satellite laboratory at Nanyang Technological University, are now able to take their research and development into the next level with the advanced equipment.   Apart from researching into new battery materials and engineering the next generation of batteries, TUM CREATE’s research focus includes battery safety, which can now be done in the safe and controlled laboratory environment. This facility was successfully implemented into the construction of the CREATE Research wing by the experts from TUM CREATE, and has received safety certification from local building and safety authorities.   “We have one of the safest battery test facilities in the world,” said Prof. Hoster, referring to the walk-in battery abuse chamber that is able to handle battery abuse tests of up to 1,200A and handle a 500Wh explosion. “Nobody else in the region has such a bunker specifically for such battery tests. We are able to drive battery cells to their limits.”   TUM CREATE’s research on batteries extends beyond electric vehicles and can be applied to a wide variety of purposes and industries. As a publicly funded research institution, knowledge gleaned from the research can be published and shared publicly. In so doing, it will enable TUM CREATE to achieve its goals of building the knowledge base and competencies in Singapore, as well as developing talents in the area of battery research and engineering.   Energy Storage is just one of the many research and development topics undertaken by over 100 scientists, researchers and engineers from more than 20 countries at TUM CREATE. The cutting-edge research covers topics ranging from molecules to megacities including areas such as: electrochemistry, electric vehicle battery packs, embedded systems, air conditioning, simulation and modelling, and infrastructure.   TUM CREATE will mark another significant milestone and set history later this year when it will present the electric taxi prototype, codenamed EVA, at the Tokyo Motor Show – Asia’s largest and most important automotive trade show. EVA is a platform to showcase the research, development and innovations of TUM CREATE.   Key features of the battery laboratory:   • Battery abuse chamber is able to handle battery cells tests involving currents up to 440A (-6V to 18V). The chamber can withstand tests on cells with energy content of up to 500Wh in abuse scenarios, and is the first in the region of this scale. • Battery pack tester can handle battery systems of up to 160kW (Max: 600A or 600V), and is the first of its scale in the region. • Battery cell cyclers can perform tests with a current range from 0.2A to 1,200A on single cells and small modules. • Seven climate chambers to perform battery tests in a variety of controlled environment – including a walk-in chamber that is one of the largest available in a research and academic setting. • Accelerating Rate Calorimeter (ARC) to accurately study the exothermal reactions thermal runaway under adiabatic conditions both on materials and battery cell levels. • Electrochemical Impedance Spectroscopy (EIS) with 12 channels

Taipei, Taiwan, ROC, 10 April 2013 — TUM CREATE has unveiled an all-new multipurpose scooter prototype, codenamed VOI, at the 3rd Taiwan International Electric Vehicle Show (EV Taiwan) Booth D0611, Hall 1, Taipei World Trade Center on 10 April 2013. It will be on display from 10 to 13 April 2013.   VOI gets its name from the Vietnamese word for elephant – a symbol of a safe and intelligent mean of transport. It is a two-wheel concept vehicle jointly developed by students from Germany’s Technische Universität München (TUM) and Singapore’s Nanyang Technological University (NTU), and was built in Singapore.   The design brief for the VOI was to develop a two-wheel transporter that is as agile and affordable as a scooter and, at the same time, as safe and comfortable as a car.   With its compact size and manoeuvrability, the two-wheel electric scooter is designed as a transporter for densely populated megacities in mind, and offers a comprehensive solution to metropolises where congested traffic is a major problem.   Positioning the rider behind allows for a compact design and the use of an enclosed passenger cabin that shields occupants from the elements. The enclosure also offers added rigidity and stiffness to the vehicle chassis which can aid in passenger protection. With the VOI, business people are able to commute quickly, comfortably and safely through the gridlocks to rush from one meeting to another.   It can also address the ‘First/Last Mile Problem’, where it complements an existing metro railway and public transport system, to offer commuters intermediate transportation between the stations to their destinations.   Furthermore, the VOI is not just limited to transporting passengers. Its modular front pod can be swapped for a cargo box or even a mobile kitchen – making it a multipurpose vehicle.   The VOI is not only a more efficient mode of transport; it also reduces pollution within a metropolis with zero tailpipe emissions. Thanks to its lightweight design, the VOI is capable of reaching a nominal range of 80 km and has a maximum speed of 45 km/h.   Project VOI is an urban mobility concept developed by final-year students from both universities and is a Work-in-Progress prototype to demonstrate the possibilities of future mobility. This project is just one of many research and development works undertaken by over 100 scientists, researchers and engineers from more than 20 countries at TUM CREATE. The cutting-edge research covers topics ranging from molecules to megacities including areas such as: electrochemistry, electric vehicle battery packs, embedded systems, air conditioning, simulation and modelling, and infrastructure.   TUM CREATE will mark another significant milestone and set history later this year when it will present the electric taxi prototype, codenamed EVA, at the Tokyo Motorshow – Asia’s largest and most important automotive trade show. EVA is a platform to showcase the research, development and innovations of TUM CREATE.