J2ME Programming

Handheld devices, such as programmable cell phones and personal digital assistants (PDAs), have already become more numerous than PCs. Students need to be prepared today to work on the most widely available computing platforms of tomorrow. With their small size and mobility, these handheld devices present both new opportunities and unique software engineering challenges. J2ME stands for Java 2 Micro Edition that is one of the three Java Editions (J2SE, J2EE, and J2ME) specially designed for handheld devices. J2ME plus handheld devices are the platforms for wireless Internet and mobile business in the future

Service Learning on the Information Superhighway

The Information Superhighway is more than the Internet. It is a series of components, including the collection of...high-speed, interactive...networks that exist today and will emerge tomorrow. It is the satellite, terrestrial, and wireless technologies....It is the information and content that flow over the infrastructure....It is the computers, televisions, telephones, radios, and other products....It is the people who will provide, manage, and generate new information....And it is the individual Americans who will use and benefit from the Information Superhighway. The Information Superhighway...encompasses all these components and captures the vision of a nationwide, invisible, seamless, dynamic web of transmission mechanisms, information, appliances, content, and people. — America on the Information Superhighway, the Benton Foundation, www.benton.or

Wellness Protocol: An Integrated Framework for Ambient Assisted Living : A thesis presented in partial fulfilment of the requirements for the degree of Doctor of Philosophy In Electronics, Information and Communication Systems At School of Engineering and Advanced Technology, Massey University, Manawatu Campus, New Zealand

Listed in 2016 Dean's List of Exceptional ThesesSmart and intelligent homes of today and tomorrow are committed to enhancing the security, safety and comfort of the occupants. In the present scenario, most of the smart homes Protocols are limited to controlled activities environments for Ambient Assisted Living (AAL) of the elderly and the convalescents. The aim of this research is to develop a Wellness Protocol that forecasts the wellness of any individual living in the AAL environment. This is based on wireless sensors and networks that are applied to data mining and machine learning to monitor the activities of daily living. The heterogeneous sensor and actuator nodes, based on WSNs are deployed into the home environment. These nodes generate the real-time data related to the object usage and other movements inside the home, to forecast the wellness of an individual. The new Protocol has been designed and developed to be suitable especially for the smart home system. The Protocol is reliable, efficient, flexible, and economical for wireless sensor networks based AAL. According to consumer demand, the Wellness Protocol based smart home systems can be easily installed with existing households without any significant changes and with a user-friendly interface. Additionally, the Wellness Protocol has extended to designing a smart building environment for an apartment. In the endeavour of smart home design and implementation, the Wellness Protocol deals with large data handling and interference mitigation. A Wellness based smart home monitoring system is the application of automation with integral systems of accommodation facilities to boost and progress the everyday life of an occupant

The IoT Tree of Life

The Internet of Things (IoT) has come to mean all things to all people. Combined with the huge amount of interest and investment into this emerging opportunity, there is a real possibility that the arising confusion will hamper adoption by the mass market. The SILC team have used their extensive Sensor Systems market and technical knowledge in an attempt to clarify the situation for individuals interested in understanding IoT, and the underpinning role of Sensor Systems. This paper proposes a phased model of the IoT ecosystem, starting with infrastructure establishment, and culminating in exploitation through the creation of new companies and business models. It does not attempt to quantify the emerging opportunities, relying instead on the many publications dedicated to detailed market analysis. The focus is to place the opportunities in context, demonstrate the importance of sensor system technology underpinning the emerging IoT revolution, and suggests areas where the UK could establish leadership positions. Throughout the paper, examples of the likely protagonists have been used by way of illustration

DIY networking as a facilitator for interdisciplinary research on the hybrid city

DIY networking is a technology with special characteristics compared to the public Internet, which holds a unique potential for empowering citizens to shape their hybrid urban space toward conviviality and collective awareness. It can also play the role of a “boundary object” for facilitating interdisciplinary interactions and participatory processes between different actors: researchers, engineers, practitioners, artists, designers, local authorities, and activists. This position paper presents a social learning framework, the DIY networking paradigm, that we aim to put in the centre of the hybrid space design process. We first introduce our individual views on the role of design as discussed in the fields of engineering, urban planning, urban interaction design, design research, and community informatics. We then introduce a simple methodology for combining these diverse perspectives into a meaningful interdisciplinary collaboration, through a series of related events with different structure and framing. We conclude with a short summary of a selection of these events, which serves also as an introduction to the CONTACT workshop on facilitating information sharing between strangers, in the context of the Hybrid City III conference

The Importance of Sensors to the Internet of Things

The excitement and hype surrounding the emerging technology market known as the Internet of Things (IoT) has attracted a great deal of attention from industry, business leaders, and governments alike. According to Cisco estimates1, the IoT will create a $14 Trillion global opportunity, and Business Insider predict it will be the largest market for technology hardware ever 2. If these are correct, the impact on traditional business models through the adoption of new technology within industry, the service sector and governments will be transformational. At an individual and societal level, important areas such as health care and aging population will particularly benefit from IoT. The changes on tomorrow’s society can only be imagined but there is little doubt, whether individually, societally, economically, or industrially, these changes will be far reaching. However, the promise of future riches can fool the unwary into overlooking the jewels that already exist which are delivering benefit to the UK economy today; whose presence will be pivotal to the UK’s position in the IoT market of tomorrow. In the SILC white paper ‘The IoT Tree of Life’3, the 4 foundation roots from which the IoT will develop are: Low Power Processing, Miniature Sensors, Ubiquitous Wireless, and Power Efficiency. This briefing paper explores Sensor Systems, the ‘eyes and ears’ of the IoT, and elucidates how the existing UK strengths in this area can be leveraged to deliver competitive advantage to the UK economy in the emerging IoT market