Elevate Elevator Traffic Analysis And Simulation Software

10/22/2017by

Description Version 8.24 now available! If you are a current user of ELEVATE version 8.19, 7 or 6 for an upgrade! If you are a current user of ELEVATE version 7 or 6 for upgrade information. ELEVATE™ is the software used by designers worldwide to select the number, size and speed of elevators for all types of buildings. ELEVATE can also be used to demonstrate that modernizing an existing elevator installation will improve service for passengers. ELEVATE is an excellent tool for developing, testing, and demonstrating your own control systems. Some of ELEVATE'S features include: • Analysis of elevator performance in offices, hotels, hospitals, shopping centers, residential buildings, car parks, mixed use buildings, airports, public buildings, sports and leisure complexes, schools and colleges.

Elevate Elevator Traffic Analysis And Simulation Software

Elevator Traffic Analysis. Le t ’ s take one popular software tool available, for example, Elevate. “ Elevator traffic simulation procedure ”.

• This is achieved by techniques ranging from up peak round trip time calculations through to full dynamic simulation. • Dynamic simulation incorporating a graphical display of elevators responding to passenger calls. For your clients, this provides a convincing visual demonstration of your proposals. • An easy to use Windows interface. Enter basic information for a quick analysis or comprehensive data for a detailed model. • In addition to standard reports, transfer input data and results to Microsoft Excel at the click of a button.

Elevate Elevator Traffic Analysis And Simulation Software

Excel reports also include extensive additional analysis results. • Supplied with a fully comprehensive help system and user support. The price includes one year of maintenance and support. The software and manual are available for download.

A USB key is provided which unlocks the software. This key can be transferred between machines if necessary. Compatible with Windows XP, Windows Vista and Windows 7 (32 and 64 bit). ELEVATE TRAINING ELEVATE courses available: Dubai Tuesday 20th of February 2018 - Elevate Standard Training Course Wednesday 21st of February 2018 - Advanced Elevate Training Course London Thursday 15th of March 2018 - Elevate Standard Training Course Friday 16th of March 2018 - Advanced Elevate Training Course Great Missenden, UK Thursday 6th of September 2018 - Elevate Standard Training Course Friday 7th of September 2018 - Advanced Elevate Training Course for more information and to book places.

Author Bio Developed by Peters Research, Ltd. (PRL), Elevate elevator traffic analysis and simulation software has become the worldwide industry standard, used by more elevator professionals than any other traffic design product.

Their software is currently licensed to companies in more than 60 countries. We support the software with a comprehensive maintenance and support program and, in addition, provide training seminars around the world. PRL also offers supplementary services including Design Review and Elevator Traffic Surveys. The company was established in 1997 and is based in Great Kingshill, 35 miles west of London, England.

Lift traffic design can employ calculation or simulation methods. Calculation can be split into main categories: analytical equation-based methods and numerical methods. Simulation can be split into discrete event simulation and time-slice simulation.

These methods vary in the level of computational complexity, as well as their ability to arrive at a value for the required performance parameters with acceptable accuracy and under the general case. Moreover, the repeatability of the results is an important consideration, as well as the simplicity and calculation time of the method used. This technical note provides a general overview of each of the four methods. It also discusses the suitable areas of application of each of the methods, showing the strengths and weaknesses of each of the four methods. Cara Install Swf Player Di Android here. This technical note concludes by outlining the current hybrid method used by designers in lift traffic design, whereby one of the calculation methods is used to find a starting arrangement and then the design is fine tuned using one of the simulation methods (e.g. Changing speed, capacity of the lifts as well as the group control algorithm) in order to achieve the required average passenger waiting time and average passenger transit time. Practical application: This technical note provides a blueprint to lift traffic designers for the lift traffic design process.

It emphasises the fact that calculation and simulation are not mutually exclusive methodologies, and shows how they complement each other, where the former provides a starting design and the latter allows the designer to fine tune the lift traffic design. Al-Sharif L and Al-Adhem MD. Overview and comparison of the four methods of elevator traffic analysis and design. In: Elevator world, virtual elevator event, Mobile, Alabama, USA, 11 July 2012. CIBSE guide D: transportation systems in buildings, 4th ed.

London: Chartered Institute of Building Services Engineers, 2010. Elevator traffic handbook: theory and practice. London and New York: Spon Press, 2003.

Al-Sharif, L, Alqumsan, AMA, Aal, OFA. Automated optimal design methodology of elevator systems using rules and graphical methods (the HARint plane).

Build Serv Eng Res Technol 2013; 34: 275– 293., 5. Lift traffic analysis: formulae for the general case. Build Serv Eng Res Technol 1990; 11: 65– 67., 6. Al-Sharif L, Alqumsan AMA and Khaleel R.

Derivation of a universal elevator round trip time formula under incoming traffic. Build Serv Eng Res Technol. Epub ahead of print 13 June 2013. DOI: 10.11413481685. Al-Sharif, L, Dahyat, H, Al-Kurdi, L. The use of Monte Carlo simulation in the calculation of the elevator round trip time under up-peak conditions. Build Serv Eng Res Technol 2012; 33: 319– 338., 8.

Al-Sharif L and Hammoudeh A. Evaluating the elevator round trip time for multiple entrances and incoming traffic conditions using Markov chain Monte Carlo. Int J Ind Syst Eng (IJISE), (2013, accessed 29 August 2013). Siikonen M, Susi T and Hakonen H. Passenger traffic flow simulation in tall buildings. In: IFHS, International conference on multi-purpose high-rise towers and tall buildings, Madrid, Spain, November 2000. Discrete event simulation of multi-car elevator systems.

Final Year Graduation Project, Mechatronics Engineering Department, University of Jordan, Amman, Jordan, 2012. Simulink: simulation and model-based design, (2009, accessed 29 August 2013). Peters Research, 2010.

Elevate: elevator traffic analysis & simulation software, getting started, Version 8. Bucks, UK: Peters Research Ltd., 2010. The impact of traffic variations on elevator performance, slide number 2 from the oral presentation. In: Proceedings of Elevcon 2012, the 19th international congress on vertical transportation technologies, Miami Beach, USA, 22–24 May 2012.

Jappsen H and Rieke O. Difficulties in comparing the results of lift-traffic simulations. In: Proceedings of Elevcon 2012, the 19th international congress on vertical transportation technologies, Miami Beach, USA, 22–24 May 2012.

So, ATP, Suen, WSM. New formula for estimating average travel time.

Elevatori 2002; 31: 66– 70. Al-Sharif, L, Aal, OFA, Alqumsan, AMA. Evaluating the elevator passenger average travelling time under incoming traffic conditions using analytical formulae and the Monte Carlo method. Elevator World 2013; 61(6): 110– 123. Towards agreed traffic design definitions. Elevator World 2005; 53(2): 108– 108. Uppeak revisited.

In: Elevator technology 4, proceedings of Elevcon ’92, Amsterdam, The Netherlands, 1992, pp.39–47. UK: International Association of Elevator Engineers. Uppeak, down peak and interfloor performance revisited. In: Elevator technology 9, proceedings of Elevcon ’98, Zurich, Switzerland, 1998, pp.31–40. UK: International Association of Elevator Engineers. State-of-the-art traffic analyses. In: Elevator technology 18, proceedings of Elevcon 2010, Lucerne, Switzerland, 2010, pp.106–115.

Hakonen H and Siikonen M. Elevator traffic simulation procedure. Pspice To Ltspice Converter Cc. In: Elevator technology 17, proceedings of Elevcon 2008, Thessaloniki, Greece, 2008, pp.131–141. British Council for Offices.

BCO guide to specification 2009. London, UK: British Council for Offices, 2009.

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