- San Rafael CA, US Damon LAU - New York NY, US James STODDART - Atlanta GA, US Lorenzo VILLAGGI - Brooklyn NY, US Rui WANG - New York NY, US Lindsey WIKSTROM - West New York NJ, US
International Classification:
G06F 30/13 G06F 30/20
Abstract:
Various embodiments set forth systems and techniques for assessing sustainability of a building design. The techniques include receiving a building design for a budding and sustainability certification data describing a plurality of sustainability certification systems; selecting one or more particular sustainability certification systems from the plurality of sustainability certification systems; computing a respective sustainability certification value for each sustainability certification system of the one or more particular sustainability certification systems; and performing one or more building design operations based on sustainability certification system values for the one or more particular sustainability certification systems.
Optimizing Building Design For Future Transformation And Expansion
- San Rafael CA, US Damon LAU - New York NY, US James STODDART - Atlanta GA, US Lorenzo VILLAGGI - Brooklyn NY, US Rui WANG - New York NY, US Lindsey WIKSTROM - West New York NJ, US
International Classification:
G06F 30/13
Abstract:
Various embodiments set forth systems and techniques for determining expandability of a budding design. The techniques include receiving a building geometry indicating a size of a building and a shape of the building; receiving building placement data indicating a placement of the building within a site; identifying one or more remaining spaces within the site based at least on the size of the building, the shape of the building, and the placement of the building within the site; for each remaining space of the one or more remaining spaces: determining whether the remaining space is a usable space; based on the determining whether the remaining space is a usable space, generating a space expansion value corresponding to the remaining space; and computing, based on space expansion values corresponding to the one or more remaining spaces, one or more aggregate expansion values associated with the building geometry and the building placement.
- San Rafael CA, US Damon LAU - New York NY, US James STODDART - Atlanta GA, US Lorenzo VILLAGGI - Brooklyn NY, US Rui WANG - New York NY, US Lindsey WIKSTROM - West New York NJ, US
A computer-implemented method for generating a building design for a building site having a complex shape comprises: generating a first group of processing areas from a plurality of processing areas associated with the building design and a second group of processing areas from the plurality of processing areas; generating a first building footprint leg that is sized to include the first group of processing areas and a second building footprint leg that is sized to include the second group of processing areas; at a pivot location, joining the first building footprint leg and the second building footprint leg at an aperture angle; performing a numerical simulation to position the first group of processing areas in the first building footprint leg and the second group of processing areas in the second building footprint leg to generate a candidate building design for the building site; and rendering the candidate building design.
Computer-Implemented Techniques For Creating Layouts For Physical Spaces
- San Rafael CA, US Rui WANG - New York NY, US Dale ZHAO - New York NY, US
International Classification:
G06F 30/13
Abstract:
One or more embodiments disclose techniques for generating a layout for a physical space or a building. The techniques include generating a layout based on a floorplan of a physical space, generating a plurality of spatial unit grids corresponding to a plurality of spatial units to be placed in the physical space, identifying a placement for a first spatial unit grid in the plurality of spatial unit grids within the layout by matching a corner cell in the first spatial unit grid with a given available cell in the layout, generating a score associated with the placement for the first spatial unit grid based on one or more placement parameters that define placement constraints for a first spatial unit included in the plurality of spatial units and corresponding to the first spatial unit grid, and placing the first spatial unit grid in the layout based on the score.
Generating Building Designs While Computationally Optimizing For Work Conditions
- San Rafael CA, US Damon LAU - New York NY, US James STODDART - Atlanta GA, US Lorenzo VILLAGGI - Brooklyn NY, US Rui WANG - New York NY, US Lindsey WIKSTROM - West New York NJ, US
International Classification:
G06F 30/20 G06F 30/13
Abstract:
Various embodiments set forth systems and techniques for generating work condition values for a building layout. The techniques include receiving a building layout specifying, for each workspace of a plurality of workspaces included in the workplace, a respective location of the workspace; selecting one or more work condition elements from a plurality of work condition elements based at least on the plurality of workspaces; for each work condition element of the one or more work condition elements: evaluating the plurality of workspaces based on the work condition element; based on the evaluating the plurality of workspaces, generating an element value corresponding to the work condition element; and computing, based on element values corresponding to the one or more work condition elements, an overall work condition value associated with the building layout.
Rapid Exploration Of Building Design Options For Ventilation
- San Rafael CA, US Damon LAU - New York NY, US James STODDART - Atlanta GA, US Lorenzo VILLAGGI - Brooklyn NY, US Rui WANG - New York NY, US Lindsey WIKSTROM - West New York NJ, US
International Classification:
G06F 30/28 G06F 30/13
Abstract:
A computer-implemented method for computationally determining ventilation efficiency when generating a building design comprises: generating a first three-dimensional (3D) mesh based on a first 3D building model; performing a first fluid dynamic computer simulation based on the first 3D mesh and first environmental data associated with the first 3D building model to generate a first output data set; and computing, based on the first output data set, a first value for a ventilation performance metric that is associated with the first 3D building model.
Generating Building Designs That Optimize Productivity Of The Building
- San Rafael CA, US Damon LAU - New York NY, US James STODDART - Atlanta GA, US Lorenzo VILLAGGI - Brooklyn NY, US Rui WANG - New York NY, US Lindsey WIKSTROM - West New York NJ, US
One embodiment sets forth a computer-implemented method for measuring productivity in buildings and workplaces. The method includes receiving workstation data for a plurality of workstations for the building and operation data for a plurality of operations for the building; generating a building layout specifying, for each workstation of the plurality of workstations, a respective location of the workstation; generating, for each operation of the plurality of operations, a respective productivity value based on the workstation data, the operation data, and the locations of the plurality of workstations; and calculating, based on the productivity values of the plurality of operations, one or more overall productivity values associated with the building layout.
STARTALK Topeka, KS 2013 to 2013 Chinese Instructor
Education:
Confucius Institute of Kansas University Overland Park, KS 2012 to 2000 TeachingCentral China Normal University Wuhan Wuhan, CN 2009 to 2012 M.A. in Foreign Linguistics and Applied LinguisticsWuhan University of Science and Technology Wuhan, CN 2007 to 2009 B.A. in EnglishWuhan International Trade College Wuhan, CN 2004 to 2007College study English
Mar 2014 to May 2014 Accountant AssistantChina Merchants Bank New York, NY Jun 2013 to Aug 2013 InternNefeli
Mar 2013 to May 2013 Accountant AssistantNefeli
Dec 2012 to Feb 2013 Accountant AssistantBank of China Tongling, CN Jun 2012 to Aug 2012 corporate banking managerIndustrial and Commercial Bank of China
Mar 2012 to Mar 2012 Intern in the department of Marketing and International BusinessHua Rong Asset Management Corporation Hefei, CN Jun 2011 to Aug 2011 InternIndustrial and Commercial Bank of China Tongling, CN Jun 2010 to Aug 2010 InternIndustrial and Commercial Bank of China
Jun 2009 to Aug 2009 Intern
Education:
St John's University GPA3.92 2012 to 2014 MBA in FinanceTongling University 2008 to 2012 BS in Finance
Charlottetown Rural High School Charlottetown PE 2006-2010
Community:
Dana Butterfeld, Mark Brown, David Bowie, Katie Clow, Johnathon Perry, Lucas Macintyre, Brittany Hazel, Christal Carpenter, Matthew Macnevin, Claire Jardine
Lillis Catholic High School Kansas City MO 1997-2001
Community:
Julianna Zammar, Margaret Birmingham, Nikki Dennis, Carole White, John Sears, Muriel Strother, Lucia Stover, John Judge, Anita Gross, Mark Mccall, Lyn Taylor
To do so, the team of scientists, including theoretical physicists Rui Wang and Baigeng Wang (both of Nanjing University) as well as experimental physicists Lingjie Du (Nanjing University) and Rui-Rui Du (Peking University) designed a theory and an experiment that used an extremely strong magnetic
Date: Jun 14, 2023
Category: Science
Source: Google
Security flaw in Android apps from Google Play store leaves user passwords ...
AppBugs' CEO Rui Wang told Ars Technica that the Match.com app uses an unencrypted hypertext transfer protocol to send user passwords, which in turn means pretty much anybody in a position to monitor the traffic (such as somebody using the same wi-fi network as the Match app user) to read those pass
A companion study by another CBB doctorate, Rui Wang, looked at the specialized activity of a pair of genes involved in the regions of the brain that control song and speech. This study, appearing in the Journal of Comparative Neurology, found that these genes are down- and up-regulated in one brain
Date: Dec 12, 2014
Category: Sci/Tech
Source: Google
Scientists Find Potential Driver of Some Aggressive Prostate Cancers
Additional authors: Xiao-Song Wang, Sunita Shankar, Saravana M. Dhanesekaran, Bushra Ateeq, Xiaojun Jing, Daniel Robinson, Qi Cao, John R. Prensner, Anastasia K. Yocum, Rui Wang, Daniel F. Fries, Bo Han, Irfan A. Asangani, Xuhong Cao, Yong Li, Gilbert S. Omenn, Nallasivam Palanisamy, and Sooryanaray