397,244 research outputs found
[Affidavit in Any Fact by V. S. Smart #1]
Affidavit in Any Fact handwritten by V. S. Smart, concerning officer's position at the time of the shooting of Lee Harvey Oswald
[Affidavit in Any Fact by V. S. Smart #2]
Affidavit in Any Fact handwritten by V. S. Smart, concerning officer's position at the time of the shooting of Lee Harvey Oswald
[Typed Statement by V. S. Smart]
Typed statement by V. S. Smart regarding familiarity with Jack Ruby. Smart states that he does not know Ruby and did not see him prior to the shooting
Smart Light Fields
Smart Light Fields is a live mapping of the movement of Smart Light Sydney festival-goers across Circular Quay. Also exhibited in the Creative Sydney Festival, Museum of Contemporary Art, Sydney. May 27-June 12, 2009
[Statement by V. S. Smart, concerning the murder of Lee Harvey Oswald]
Statement by Lieutenant V. S. Smart concerning officer's assignment, the murder of Lee Harvey Oswald, and familiarity with Jack Ruby. Smart states that he did not know Ruby nor see him prior to the shooting
A smart tool for the diagnosis of Parkinsonian syndrome using wireless watches
This work is licensed under a Creative Commons Attribution 3.0 License.Early detection and diagnosis of Parkinson disease will provide a good chance for patients to take early actions and prevent its further development. In this paper, a smart tool for the diagnosis of Parkinsonian syndromes is designed and developed using low-cost Texas Instruments eZ430-Chronos wireless watches. With this smart tool, Parkinson Bradykinesia is detected based on the cycle of a human gait, with the watch worn on the foot, and Parkinson Tremor shaking is detected and differed by frequency 0 to 8 Hz on the arm in real-time with a developed statistical diagnosis chart. It can be used in small clinics as well as home environment due to its low-cost and easy-use property
Strategies for smart building realisation
Smart buildings, as a concept, is now becoming prominent in the vocabulary of Architects,
Engineers, Construction contractors, Technology companies, Property developers and the
Estate or facility management function within organizations. Public or private sector, smart
building goals are now prevalent in corporate strategies whenever new build or retrofit /
refurbishment is planned.
But there seems no common consensus on what this really means. The 1990's and 2000's
witnessed much hype around intelligent buildings concepts. However, in many instances the
hype never produced tangible results. Now the scene has changed. Sustainability and carbon
management is increasingly on the agenda of boardroom decision making and smart in
smart buildings seems to have a purpose, almost as a mission statement.
The lack of clear definitions on what encompasses a smart building and what is to be
expected when utilising a smart building whether as a solitary or group experience is causing
the supply side industry to throttle back the adoption rate. Value structures justifying
adoption are not clear in this early adaptor stage. Thus costs associated with the realisation of
a smart building are quite hard to justify. This is compounded by the rapid pace of technology
advancement and the continual refresh of new products and solutions that purport to provide
an improved functionality or better price to performance advantage.
Thus strategies for smart building realisation need to be formalised into industry accepted
frameworks which can be applied in many market sectors - or verticals, and which can be
applied in the context of small, medium and large buildings or campus premises. This paper
presents some thought leadership in this emerging area of expertise and provides concepts
that may form the fundamentals for a future framework.
The author provides a perspective as a professional in Consulting for the Engineering and
Construction industry with regards to integrating ICT systems into the built environment. ICT
infrastructure comprises much of the building blocks for smart building enablement alongside
automation and controls, electronic security and facility management applications.
Converged IP networks, integrated command and control rooms, utility smart metering and
integrated BMS (iBMS) enables smart building functionalities to be implemented. This paper
presents viewpoints across all of these subject areas in the context of policies, technologies
and obstacles
Muster and pay roll for Reuben S. Smart\u27s Company of Cavalry
Muster and pay roll for Reuben S. Smart\u27s Company of Cavalry for service during the Aroostook Warhttps://digitalmaine.com/aroostook_war_musterrolls/1012/thumbnail.jp
Intelligent Energy Optimization for User Intelligible Goals in Smart Home Environments
Intelligent management of energy consumption is one of the key issues for future energy distribution systems, smart buildings, and consumer appliances. The problem can be tackled both from the point of view of the utility provider, with the intelligence embedded in the smart grid, or from the point of view of the consumer, thanks to suitable local energy management systems (EMS). Conserving energy, however, should respect the user requirements regarding the desired state of the environment, therefore an EMS should constantly and intelligently find the balance between user requirements and energy saving. The paper proposes a solution to this problem, based on explicit high-level modeling of user intentions and automatic control of device states through the solution and optimization of a constrained Boolean satisfiability problem. The proposed approach has been integrated into a smart environment framework, and promising preliminary results are reporte
An investigation into the depiction of smart grid technology
Increasing climate change concerns and depletion of fossil fuels demand greater efficiency in electricity production and consumption. Smart Grid is a vision of an enhanced electricity grid that integrates the electric grid with communication and sensing technologies to improve energy delivery. A number of initiatives have been embarked upon to reach this vision. Databases of Smart Grid projects are being kept to hallmark the state of development and advise future project design. However, to date, there is no method of comparing projects‟ results. This means that it is difficult to identify the most successful projects. In addition, details of projects tend to be descriptive and there is no standard method of representing Smart Grid systems. The first Smart Grid technologies are about to be deployed in homes, and yet, there are little research examining how domestic consumers would react to a full set of Smart Grid technology. This is important because the opinions and participation of domestic consumers could lead to the success or failure of the Smart Grid system. This research aims to device a representation system that enables the comparison of smart grid technology available for the residential consumers in the UK. The objectives are to: (i) review and identify existing representations of home Smart Grid technology; (ii) review and identify the general system representation methods; (iii) develop a representation method that maps and enables the comparison of Smart Grid technology in homes; (iv) validate the design of the representation method with relevant stakeholders. Through a four step methodology these objectives were achieved.
Thirty Smart Grid diagrams taken from journals and conference papers were analysed and categorised into five groups based of the type of communication features they contained. The results from this analysis guided the development of a Smart Grid representation method. Two Smart Grid systems that are available on the market were depicted using the representation method and were used to validate the design through interviewing 10 residential electricity consumers. As an outcome, this research had delivered a validated representation method that could be used to depict electricity management systems. It could be adopted by energy companies to convey the functions and benefits of Smart Grid technologies to potential customers
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