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RISS 인기검색어
- 검색키워드
- 저자 : Parlan, Ismail (검색결과 3 건)
- 무료
- 기관 내 무료
- 유료
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Hay, Andrew,Parlane, Robert Sustainable Building Research Center 2010 International journal of sustainable building tech Vol.1 No.1
The Centre for Excellence is being designed as a highly innovative, two-storey multi-purpose facility that will provide essential trades and technology training and professional development to students in British Columbia, Canada and beyond. The building will support a syllabus with a focus on sustainable building technologies and processes, and the development and application of alternative and renewable energy. Design work and construction will be completed in time for the building to open in April 2011. The Centre for Excellence will also host an incubator organization to provide tenancy space for start-up innovation and research companies specializing in sustainable technologies. This building project is unique from a number of perspectives. It is aimed at attaining the highest standard of sustainable building design, namely the Living Building Challenge. Further, the building itself will become an essential element of the educational programs that will reside there, mainly focused on building trades and engineering technologies. In addition, the Okanagan Research Innovation Centre will be incorporated into the building, providing opportunities for start-up companies to develop and prototype new green technologies in a supportive and synergistic environment. Finally, this building is being constructed in the somewhat challenging climatic regime of the Okanagan region of Canada. The most important element of this project is that is will demonstrate that the Living Building Challenge is achievable at a cost comparable to conventional building design. The paper will focus on how this ambitious goal will be attained along with the numerous unique aspects that have been incorporated into the building design.
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Khali Aziz Hamzah,Azahan Shah Idris,Ismail Parlan 강원대학교 산림과학연구소 2013 Journal of Forest Science Vol.29 No.1
Malaysia possesses about 1.56 million ha of Peat Swamp Forest (PSF). The PSF safeguard enormous biological diversity, while providing crucial benefits for the sustainable development of human communities. Numbers of threatened plant species are associated with the PSF, including the commercially important Gonystylus bancanus timber. To prevent significant losses of biodiversity, it is important to manage the PSF for both biological conservation and sustainable use. Equally important is to restore all degraded PSF in an attempt to ensure the PSF ecosystem is suitable for the vegetation to grow and rehabilitate back to the normal condition. Prior to plan any forest restoration program, there is a need to properly map the degraded PSF in order to estimate the forest conditions and determine the vegetations status. Most of the time this need to be done at a landscape level and requires a technology that can provide accurate, timely and reliable information for the planner to make decision. This paper describes a study using geospatial technology in combination with ground survey to classify the degraded PSF in South East Pahang Peat Swamp Forest (SEPPSF), Malaysia, into different degree of vegetation classes. With map accuracy of about 83%, the technique proved to be useful in delineating the different degree of PSF degradation from which the information can be used to properly plan forest restoration program in the area. The final output which is in the form of map can be used in developing a Restoration Master Plan for the degraded PSF areas.
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Hamzah, Khali Aziz,Idris, Azahan Shah,Parlan, Ismail Institute of Forest Science 2013 Journal of Forest Science Vol.29 No.1
Malaysia possesses about 1.56 million ha of Peat Swamp Forest (PSF). The PSF safeguard enormous biological diversity, while providing crucial benefits for the sustainable development of human communities. Numbers of threatened plant species are associated with the PSF, including the commercially important Gonystylus bancanus timber. To prevent significant losses of biodiversity, it is important to manage the PSF for both biological conservation and sustainable use. Equally important is to restore all degraded PSF in an attempt to ensure the PSF ecosystem is suitable for the vegetation to grow and rehabilitate back to the normal condition. Prior to plan any forest restoration program, there is a need to properly map the degraded PSF in order to estimate the forest conditions and determine the vegetations status. Most of the time this need to be done at a landscape level and requires a technology that can provide accurate, timely and reliable information for the planner to make decision. This paper describes a study using geospatial technology in combination with ground survey to classify the degraded PSF in South East Pahang Peat Swamp Forest (SEPPSF), Malaysia, into different degree of vegetation classes. With map accuracy of about 83%, the technique proved to be useful in delineating the different degree of PSF degradation from which the information can be used to properly plan forest restoration program in the area. The final output which is in the form of map can be used in developing a Restoration Master Plan for the degraded PSF areas.
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