The document provides information about a residential development located in Pasig City, Philippines. It is situated along Alfonso Sandoval near major hospitals, schools, and commercial establishments. The development consists of 24 buildings with a total of 2,160 residential units across 5 hectares, with amenities like swimming pools, gardens, and a function hall. The units range from 30-32 square meters and have features such as vinyl floors, modular kitchens, and balconies.
Presentation of the research work of the group ARC Engineering and Architecture La Salle about energy information systems for buildings and cities based on semantic technologies. The presentation was given at the Universidad de Deusto, Bilbao, on 27 April, 2016, as part of the activities of the Opencitydata thematic network.
The document provides information about a residential development located in Pasig City, Philippines. It is situated along Alfonso Sandoval near major hospitals, schools, and commercial establishments. The development consists of 24 buildings with a total of 2,160 residential units across 5 hectares, with amenities like swimming pools, gardens, and a function hall. The units range from 30-32 square meters and have features such as vinyl floors, modular kitchens, and balconies.
Presentation of the research work of the group ARC Engineering and Architecture La Salle about energy information systems for buildings and cities based on semantic technologies. The presentation was given at the Universidad de Deusto, Bilbao, on 27 April, 2016, as part of the activities of the Opencitydata thematic network.
Presentation delivered in the Workshop on Art and Architecture. Second Annual SHARE Conference London, 11-12 May 2012. Hosted by CCW Graduate School, University of the Arts London. More information at:http://arc.housing.salle.url.edu/share_workshop_transdisciplinarity/
The document discusses forensic science and crime scene investigation. It defines key crime scene terminology like primary crime scene and secondary crime scene. It describes the different types of evidence like testimonial, physical, and trace evidence. It outlines the roles of personnel involved at a crime scene like police officers, crime scene investigators, medical examiners, and detectives. It also explains the typical crime scene investigation protocol of interviewing, examining, documenting, and processing the scene to identify and collect evidence. Finally, it lists several forensic science disciplines used to analyze evidence in a crime lab, such as drug chemistry, biology/DNA, toxicology, latent prints, and questioned documents.
Hair and fiber evidence can provide important clues in criminal investigations. Hair is composed of the cuticle, cortex, and sometimes a medulla. Characteristics of each layer like color, thickness and shape can be used to identify if a hair came from a human or animal and even determine the body area it came from. Fibers found on clothing can also be identified and matched between a victim and suspect. Natural fibers like cotton and wool are commonly used in textiles as well as synthetic fibers like nylon and polyester. Microscopic analysis of hairs and fibers is crucial in forensic investigations.
Chromatography is a technique used to separate mixtures into individual components. It works by passing a mixture through a stationary phase that separates out the different molecules. The document discusses several chromatography methods including paper chromatography, thin layer chromatography, gas chromatography and liquid chromatography. It provides examples of how chromatography can be used to analyze inks, dyes, plant pigments, and the chemical composition of unknown substances like the different compounds in gasoline. The document also includes a sample lab procedure for using paper chromatography to analyze different black ink markers.
This is a summary of the development of the BARCODE HOUSING SYSTEM, a project carried out by the research group ARC Engineering and Architecture La Salle, from 2002 to 2009. The purpose of the research has been the creation of an Internet-based environment which facilitates the interaction of the different actors (architects, builders, manufacturers, occupants, facilities managers) involved in the design, construction and use of affordable housing built with industrialized methods. This research project began in 2002, when we started to develop a rule-based system to automatically generate housing units and buildings resulting from their aggregation, by means of user-friendly interfaces. This system, which was completed in 2005, was stand-alone and limited to single users. We then proceeded to develop a new environment to overcome these limitations, facilitating the participation and interaction of different agents in the process of designing, building and using the housing generated with the support of the system. This second version of the system was carried out with a research grant of the Spanish National RDI plan, from 2005 to 2009. It is a modular environment which supports the decision-making process in an open and distributed fashion, allowing inputs from different users at any stage of the design and building process.
A poster of the first version of the system can be accessed here:
http://www.slideshare.net/lmadrazo/barcode-housing-systemprototype
The document provides an overview of various types of forensic evidence that can be analyzed, including paint, glass, explosives, ballistics, fingerprints, impression evidence, wounds, DNA, insects, skeletal remains, body fluids, hairs and fibers. It describes how each type of evidence can be examined and potentially provide links between suspects and crime scenes. For example, paint chips may reveal the make and model of a vehicle, while ballistics analysis examines gunshot residue and striations on bullets to match weapons to crimes. The document also notes some limitations of forensic anthropology.
Presentation delivered in the Workshop on Art and Architecture. Second Annual SHARE Conference London, 11-12 May 2012. Hosted by CCW Graduate School, University of the Arts London. More information at:http://arc.housing.salle.url.edu/share_workshop_transdisciplinarity/
The document discusses forensic science and crime scene investigation. It defines key crime scene terminology like primary crime scene and secondary crime scene. It describes the different types of evidence like testimonial, physical, and trace evidence. It outlines the roles of personnel involved at a crime scene like police officers, crime scene investigators, medical examiners, and detectives. It also explains the typical crime scene investigation protocol of interviewing, examining, documenting, and processing the scene to identify and collect evidence. Finally, it lists several forensic science disciplines used to analyze evidence in a crime lab, such as drug chemistry, biology/DNA, toxicology, latent prints, and questioned documents.
Hair and fiber evidence can provide important clues in criminal investigations. Hair is composed of the cuticle, cortex, and sometimes a medulla. Characteristics of each layer like color, thickness and shape can be used to identify if a hair came from a human or animal and even determine the body area it came from. Fibers found on clothing can also be identified and matched between a victim and suspect. Natural fibers like cotton and wool are commonly used in textiles as well as synthetic fibers like nylon and polyester. Microscopic analysis of hairs and fibers is crucial in forensic investigations.
Chromatography is a technique used to separate mixtures into individual components. It works by passing a mixture through a stationary phase that separates out the different molecules. The document discusses several chromatography methods including paper chromatography, thin layer chromatography, gas chromatography and liquid chromatography. It provides examples of how chromatography can be used to analyze inks, dyes, plant pigments, and the chemical composition of unknown substances like the different compounds in gasoline. The document also includes a sample lab procedure for using paper chromatography to analyze different black ink markers.
This is a summary of the development of the BARCODE HOUSING SYSTEM, a project carried out by the research group ARC Engineering and Architecture La Salle, from 2002 to 2009. The purpose of the research has been the creation of an Internet-based environment which facilitates the interaction of the different actors (architects, builders, manufacturers, occupants, facilities managers) involved in the design, construction and use of affordable housing built with industrialized methods. This research project began in 2002, when we started to develop a rule-based system to automatically generate housing units and buildings resulting from their aggregation, by means of user-friendly interfaces. This system, which was completed in 2005, was stand-alone and limited to single users. We then proceeded to develop a new environment to overcome these limitations, facilitating the participation and interaction of different agents in the process of designing, building and using the housing generated with the support of the system. This second version of the system was carried out with a research grant of the Spanish National RDI plan, from 2005 to 2009. It is a modular environment which supports the decision-making process in an open and distributed fashion, allowing inputs from different users at any stage of the design and building process.
A poster of the first version of the system can be accessed here:
http://www.slideshare.net/lmadrazo/barcode-housing-systemprototype
The document provides an overview of various types of forensic evidence that can be analyzed, including paint, glass, explosives, ballistics, fingerprints, impression evidence, wounds, DNA, insects, skeletal remains, body fluids, hairs and fibers. It describes how each type of evidence can be examined and potentially provide links between suspects and crime scenes. For example, paint chips may reveal the make and model of a vehicle, while ballistics analysis examines gunshot residue and striations on bullets to match weapons to crimes. The document also notes some limitations of forensic anthropology.
Jackson Hung - 轉換人生實踐者
活到現在,我們總在讀書,卻很少思考,更少為自己行動,因為代價太多。即使嘗試改變生活的一小塊,又難以理直氣壯面對眼光、及自我內心的懷疑。很幸運,15歲被丟到中美洲,再去美國念大學,又被騙回台灣工作。被逼得成長 。但探索人生的過程中,雖有勇氣數次轉換領域,從生化、專案、智財、金融交易、到程式。可是"Out of Comfortable"只是一個跨步,不是路程。最後,我創業了。希望能分享,這條不斷挑戰自我、有徬徨有懷疑的路怎麼走出來的!