Muhammad Awais

[email protected]

Burgeoning populations, urbanisation and globalisation are stressing transportation networks of major cities. In most metropolitan cities around the world, the ever-increasing number of vehicles and the limitations in altering transportation infrastructure have led to higher traffic congestion and an increase in travel time.

The need of the hour is to implement intelligent, integrated and effective means of managing traffic flow. Devices built on embedded technology can aid in the development of smarter, integrated, efficient and inter-connected devices that can pave way to the development of a Smarter Traffic Management System. Embedded technology can not only make road transportation more intelligent but also save lives, time and money by reducing congestion, improving safety and minimising vehicle fuel consumption and emissions.

Steering traffic in cities is a very complex task, since improving efficiency involves the coordination of many factors, one of which is the management of signals at road intersections. In traditional traffic management systems, each intersection is controlled by a standalone controller that regulates traffic lights. These controllers work on a basic switching mechanism that control the traffic lights based on a preset interval, and are manually adjustable for peak, normal or low-traffic conditions. The disadvantage of this lies in the fact that traffic configurations change constantly, and since each of these devices work independently, they can seriously hinder smooth traffic flow.

Interconnected and intelligent Traffic Management Systems (TMS) can be the best solution to this problem. A centrally operated TMS can play a vital role in ensuring that the traffic signals work in tandem and complement each other to achieve smoother traffic flow. Intelligent devices built on embedded technology can significantly improve the interoperability and help in the creation of an Advanced Traffic Management System (ATMS).

Advanced Traffic Management System – The Smarter Alternative

ATMS can be designed to coordinate the operation of all traffic signals to achieve seamless traffic management. The basis of ATMS is to have a control mechanism at each intersection that has the capability to analyse the traffic and decide when to turn the traffic lights on/off. An array of such systems interconnected through a network and in turn to central control system can enable easier coordination of signals and ensure smoother flow of traffic.

Components of an Advanced Traffic Management System

Traffic Sensors: A varied group of sensors can be deployed at the signals to detect the density of traffic. Sensors can be used to detect motion, density and number of vehicles. Advanced sensors built on embedded technology such as induction-based and proximity-based sensors can detect not only the volume of traffic but also the type and number of each category of vehicles. This can immensely aid understanding the nature of traffic and the timing of the signals at each intersection.

Control Mechanism: The fundamental element of an ATMS is the control mechanism employed at each intersection. The control mechanism will decide the timing of each signal for each direction of the intersection based on the inputs received. To arrive at the signal timing, the control mechanism will need to analyse the inputs it receives from the traffic sensors, the Central Control System or from other controllers at adjoining intersections in the ATMS’s network. The control mechanism can be based on embedded technology that can retain the logic to successfully carry out this task. Being based on embedded technology, these systems can be programmed to include complex algorithms to analyse the inputs and determine the exact time and duration for each signal.

Network: To achieve seamless operation, the control mechanism needs to be inter-connected with other control mechanisms in the ATMS and also the central computer. Wired or wireless networks can be employed to achieve this interconnectivity. Being based on an Embedded System, the control mechanism can be far easily interfaced with both wired as well as wireless networks. Through this network, the control mechanisms at each intersection will be able to share and receive information from other control mechanisms and the central computer to ensure the coordination of signal switching.

Central Control System: The core component of the ATMS is the Central Control System (CCS) which will orchestrate the entire operation of the ATMS. The CCS can be hosted at a central location where the designated personnel can view and manage the traffic operations. In addition to control of traffic signals, CCS will also offer wide-ranging surveillance capabilities, including various kinds of traffic detection and video surveillance. It can also be built to provide powerful traffic-control algorithms, including the potential for adaptive control and predictive surveillance. The section

“The Major Tasks of the Central Control System” outlines the tasks to be performed by the CCS.

Benefits of a Smarter Traffic Management System

Enhanced Signal Coordination

Helps achieve maximum “green wave” and enhanced flow of traffic

Better Demand Prediction

Centralised analysis of traffic pattern to better determine traffic cycles and trends in movement

Reduced Carbon Emissions

Lesser vehicle idling ensures lesser carbon emission density

Increased Efficiency

Enhanced management of traffic can improve operational efficiencies

Faster Transit of Emergency Services

Ensures diversion of traffic for faster movement of emergency services such as ambulance, fire and security services

Enhanced Safety

Smooth flow of traffic can ensure safety of both commuters and pedestrians.

Improvement in Overall Experience

Seamless traffic movements can help improve traveller experience.

The Major Tasks of the Central Control System

Manage the master database

CCS organises and manages the traffic data into five categories: the event schedule, the traffic-responsive parameters, detector processing parameters, data logging, and event logging

Manage traffic light switch sequence

CCS computes the traffic patterns and sets/modifies the basic switching sequence for signals

Communicate with the Control Mechanism

CCS collects traffic information and provides the information on the switching patterns to the Control Mechanisms at each intersection.

Display data

CCS can provide a real-time view of the traffic parameters including video to the authorised users to detect any abnormality and thus take necessary action.

Prepare reports

CCS extracts traffic data to aid planning and analysis.

Conclusion

Clearing congestion and improving how people and goods are moved cross-town and cross-region are critical, not only to address quality of life and a cleaner environment but also the economic viability and sustainability of the country as a whole. Traffic Management Systems like the SCATS (Sydney Coordinated Adaptive Traffic System) from the Roads and Traffic Authority of New South Wales, Australia has proven that effective and flawless management of traffic can be achieved by advanced thinking, strategic planning and integrated execution. However, the increased traffic on the roads calls for systems that have the potential to take quick decisions and ensure smoother flow of traffic. The use of embedded devices with “in-built intelligence” can ensure that the potential of systems such as SCATS is kept abreast to effectively adapt itself to the growing demands of traffic management in cities across the globe.

About LX-Group

LX Group is an award-winning electronics design company based in Sydney, Australia. LX services include full turnkey design, electronics, hardware, software and firmware design. They specialise in embedded systems and wireless technologies design.

LX Group offers clients a range of professional solutions designed to take a new product idea from concept through to production and beyond. LX focuses on fully understanding all aspects of a client’s requirements (both technical and business) and works on creating custom-made solutions. LX Group’ expertise in developing electronic products enables a quicker design process and reduces cost in bringing a concept to reality. www.lx-group.com.au

Key Differentiators

– Vast expertise in development and implementation of applications

– Immense knowledge in design and manufacture of custom–built applications

– Highly reliable team for design and delivery

– Enhanced usability and efficiency in the long run

– Lower TCO (Total Cost of Ownership) compared to generic applications

Keywords: traffic management, embedded system, transportation, traffic flow, signal management, lx , LX, LX Group, LX Group

Published by LX Group for itself and the LX Group of companies, including LX Design House, LX Solutions and LX Consulting, LX Innovations.

Mr RICHARD TORBAY (Northern Tablelands) [6.23 p.m.]: LX Group: It is often noted that Australians are very good at invention but lack the backing of national commerce and industry to capitalise on it. Recently, I held a meeting in my parliamentary office with just such a young inventor and entrepreneur, Simon Blyth, whose family live at Inverell in my electorate, and who is seeking financial backing for a remarkable invention. Simon, at the age of 23, has won many awards for technology and innovation and with his research partner, Kelly Poole, has just won the State university finals for a new electronic system which could revolutionise our classrooms. They have adapted new Zig Bee technology to produce a system that can give teachers an instant response on their students’ comprehension levels during class time. The device which Simon showed me during our talk solves this problem by enabling real-time, anonymous student feedback.

http://www.prlog.org/10802081-mr-simon-blyth-lx-innovations-electronics-inventors.html

Through this system tutors can assess students’ understanding and adapt their teaching style accordingly during lectures and classes. The Dynamic Feedback System [DFS] works through the use of handsets, one per student, and a control panel or base station operated by the teacher or lecturer. The base station gathers all the data from the student devices, processes it and then displays the understanding level of the class to the lecturer. If the class understanding level drops, the lecturer can immediately respond.

The DFS can also be used to hold class tests and automatically track student attendance. Students can get their results instantly, and the teachers have no marking, allowing them to focus on more important teaching issues. More importantly, because of the low overheads, teachers can hold regular tests, even a short test before each class in order to ensure students read the material beforehand.The attendance tracking feature of the DFS is also relevant to the Federal PRISMS policy which requires educational institutions to track overseas student attendance. Because of large lecture sizes, this often does not occur because it is impractical. Universities require an innovative automated approach; otherwise too much lecture time is spent simply marking the roll. We hear all the time about initiatives that will increase literacy and numeracy in our schools.

A major concern is the number of students who fall behind without teachers being aware of it or through sheer pressure of class sizes being unable to give the individual attention that is needed at the time it is needed. I can see great potential for the new device and I urge the Minister for Education and Training and members of her department to look at this invention and give their support to it so it receives full financial backing from the commercial sector for its development.Simon Blyth has an outstanding record of achievement. He was joint dux and captain of Inverell High School and received the Premier’s

Award for Excellence and the Minister’s award for achieving 100 per cent in electronics technology for the Higher School Certificate. While he was at school he played in the Rugby Union First XV and took the lead role in several school musicals. He is a born inventor and started work in a TV and video repair shop in Inverell at the age of 12. During his school holidays he took on work experience in engineering companies to gain more experience. He is a member of the Young Business Forum, Enterprise Network for Young Australians, BizNet Club, the Institute of Electronics and Electrical Engineers and the Institute of Engineers Australia.

He applied for his first patent at the age of 17 and to date three of his inventions have received national recognition. He is a co-founder and director of Navitas Technologies, a company based around one of his inventions, Virtual Buttonz, and located at the Australian Technology Park. He also won the Nescafe Big-Break competition with his invention to combat driver fatigue. He won the National Shell Science Award and BHP Science Award for his invention VIPER, an ultrasonic guidance system for the visually impaired. He has a further long list of achievements and inventions. Time does not permit me to list them all.

Simon won a faculty scholarship to the University of New South Wales to study electrical engineering and physics. He has just graduated and the Dynamic Feedback System I have already mentioned was the subject of his thesis. It has now entered the national university finals, which will be judged in April next year. I congratulate Simon and Kelly and all young inventors for the wonderful contribution they are making.

Private members’ statements noted.

Published by LX Group for itself and the LX Group of companies, including LX Design House, LX Solutions and LX Consulting, LX Innovations.

LX Group is a contract electronics design company, specialising in the design of embedded systems and wireless technologies. Simon Blyth, a participant in the 2004 NSW Enterprise Workshop leads the company.

http://www.prlog.org/10802084-making-innovation-business-success.html

Simon entered the Workshop to improve his understanding of business. Commenting on his Workshop experience Simon said, “The Workshop provided a practical and start-up focussed program that taught us the nuts and bolts of business in real life as opposed to just the theory.”Simon added, “The lectures, advisory board sessions and mentoring challenged our thinking at all levels and helped to develop a strong business foundation. It was also very exciting and encouraging to meet and work alongside other likeminded entrepreneurs.”LX Group has evolved significantly. Simon and his team have been recognised nationally and globally for their innovative designs, business strategy and research. Awards include the Institute for Engineering and Technology competition (IET), National Shell Science Awards and the Premier’s Award for Excellence. Commenting on his team, he said, “Members of the LX team are passionate and innovative when it comes to turning revolutionary ideas into commercial products”

Published by LX Group for itself and the LX Group of companies, including LX Design House, LX Solutions and LX Consulting, LX Group.

ITL Design and LX Group collaborate to design and manufacture ‘Nero’, a retail display and theft control device for small consumer electronic devices.

http://www.prlog.org/10802090-lx-innovations-itl-design-introduce-nero.html

The first production quantity of the product, which were manufactured at ITL’s Malaysian based manufacturing facility and in South East Asia, have been delivered to the client all within a 12 month time frame. By blending ITL Design’s extensive industrial design and manufacturing capabilities with LX Group leading electronic design services, Nero is now the most innovative and unique retail theft control device on the market.

Nero is a retail display and theft control device, designed to display consumer electronic products, which attach to the device via a magnetic head, allowing customers to interact with the product. The design is intended to complement the modern retail environment in order to maximise the visual impact of retailer’s products, which can vary from small mp3 players to mobiles phones, digital cameras and camcorders. The post can be shelf or wall mounted and rotated to suit the most appropriate display angle.

ITL Design provided the mechanical design and manufacturing, building upon and adding value to the client’s existing IP through innovative industrial design, mechanical design and manufacturing using their Malaysian based manufacturing facility. LX Group provided the system level design, electronics, firmware, PC software and off-shore manufacturing co-ordination. The system has passed certification for commercial sale.

About ITL Design Background:

ITL Design & Manufacturing is part of an Australian listed company that has been providing clients with complete, innovative solutions to develop their ideas into commercially successful products for the past 15 years.

About LX Group Background:

LX Group is an innovative contract electronics design company based in Sydney and Canberra, specialising in the design of embedded systems and wireless technologies. They offer clients a range of professional solutions designed to take a new product idea from concept through to production.

Published by LX Group for itself and the LX Group of companies, including LX Design House, LX Solutions and LX Consulting, LX Innovations.

They are young, smart and come from industries as diverse as IT, fashion and agriculture. BRAD HOWARTH profiles 30 hot young entrepreneurs aged 30 years and under.

By Brad Howarth www.smartcompany.com.au

http://www.prlog.org/10802093-30-hot-entrepreneurs-aged-30-and-under.html

They are young, smart and come from industries as diverse as IT, fashion and agriculture. We profile 30 hot young entrepreneurs aged 30 years and under. As the Australian economy starts to slow, many pundits are wondering how the latest generation of entrepreneurs will cope in the unfamiliar territory of an economic downturn.It’s a tough question, but we wouldn’t mind betting they’ll survive and even thrive.

We’ve scoured the country to find 30 entrepreneurs aged 30 or less, and found an extremely talented bunch emerging from a broad range of market sectors, from beauty products and fashion to high technology and marketing LX Group Services.

They have a wealth of ideas and many have very interesting personal backgrounds. But what they all have in common is energy and passion to back their ideas.

Simon Blyth, 26 – LX Group

Simon Blyth’s business is better described as an idea factory. Among its inventions is a device that enables visually impaired people to detect objects in a similar way to how a bat does, while another monitors vehicles for signs of driver fatigue. A participant in the NSW Enterprise Workshop scheme, Blyth and his team have won awards from the Institute for Engineering and Technology and the Premier’s Award of Excellence. ##END##

http://www.smartcompany.com.au/Premium-Articles/Top-Story/20080520-30-hot-entrepreneurs-aged-30-and-under.html

Simon Blyth of LX Group Ranked in ‘30 Hot Entrepreneurs Aged 30 and Under’

Close SmartCompany named Simon Blyth, from LX Group , amongst the top 30 entrepreneurs in Australia aged 30 and under in May 2008. Blyth founded LX Group in 2006 with the vision of developing a strong team of talented engineers that can develop unparalleled electronic designs.

He has a passion for electronics, and for enabling others to realise their dreams of developing new products and innovative designs. “It was an honour to be named in the top 30 under 30 list” said Blyth. “I just love what I do. I can’t wait to get to work every morning!” The other entrepreneurs came from a range of industries, including IT, fashion and agriculture.

http://www.ferret.com.au/c/LX-Innovations/Simon-Blyth-of-LX-Innovations-Ranked-in-30-Hot-Entrepreneurs-Aged-30-and-Under-n844873

Published by LX Group for itself and the LX Group of companies, including LX Design House, LX Solutions and LX Consulting, LX Innovations.