Program at a glance Plenary session 5 th July Prof. Dr. Michael Pfeffer President of German society of applied optics (DGaO), Vice rector University of Applied Sciences Ravensburg Weingarten, Germany Specifying optical elements according to ISO standards Section Illumination Design Yan Cornil Light Tec, France General training in Light Tools Section Optical systems Design Bruce Irving Synopsys, USA Introduction lectures on CODE V Section Materials.Technologies.Production CoreTech System, Taiwan Cimatron,Israel Bee Pitron, Russia Moldex3D world leading CAE product for the plastic injection molding industry Section Illumination Design Yan Cornil Light Tec, France Light Tools: Workshops Section Optical systems Design Bruce Irving Synopsys, USA CODE V: Workshops Section Materials.Technologies.Production CoreTech System, Taiwan Cimatron,Israel Bee Pitron, Russia CimatronE CAD/CAM for tool making Integrated automation system for an assembling of optical systems 7 th July 14:30 Round table International cooperation in the field of optical instruments making and technology
Plenary session 5 th July Prof. Dr. Michael Pfeffer President of German society of applied optics (DGaO), Vicerector University of Applied Sciences Ravensburg Weingarten, Germany Prof.Dr. Vladimir Vasiliev Rector of NIU IFMO Specifying optical elements according to ISO standards 17:30 17:30 18:00 18:00 Part I Introduction into optical standards (DIN, ISO, MIL) and preparation of drawings for optical elements and systems Generals: ISO 10110 1 Materials imperfections: ISO 10110 2, ISO 10110 3, ISO 10110 4 Table representing data of optical elements and cemented assemblies, non toleranced data: ISO 10110 10, ISO 10110 11 Centering errors: ISO 10110 6 Part II Indication of surface form tolerances Surface form tolerances: ISO 10110 5 Wavefront deformation tolerance: ISO 10110 14 Interferometric measurement of optical elements and optical systems Part 4: Interpretation and evaluation of tolerances specified in ISO 10110: ISO 14999 4 Part III Indication of surface imperfections, texture, roughness and waviness Surface imperfection tolerance: ISO 10110 7 Test methods for surface imperfection of optical elements: ISO 14997 Performance Specification Optical Components For Fire Control Instruments: MIL PRF 13830 ( Scratch Dig ) Surface texture, roughness and waviness: ISO 10110 8 The report Optics and optical instruments Preparation of drawings for optical elements and systems will be presented by well known expert in standards for optics industry prof. Michael Pfeffer. First time in Russia a detailed explanation of the standard and it s additions and modifications will be given.
Section Illumination Design Yan Cornil Light Tec, France Dr. Anton Filatov NIU IFMO www.opticalres.com LightTools is a 3D optical engineering and design software product that supports virtual prototyping, simulation, optimization, and photorealistic renderings of illumination applications. Its unique design and analysis capabilities, combined with ease of use, support for rapid design iterations, and automatic system optimization, help to ensure the delivery of illumination designs according to specification and schedule General training in Light Tools Overview of LightTools capabilities Familiarization with LightTools interface General training in Light Tools Start to play with your LightTools Lunch Workshop I Building and Simulation a Task Lighting Model in Light Tools Workshop II LED Collimator Optic Workshop I Building and Simulation a Task Lighting Model in Light Tools Workshop II LED Collimator Optic
Section Optical systems Design Bruce Irving Synopsys, USA Dr. Irina Livshits NIU IFMO www.opticalres.com www.synopsys.com CODE V is used to model, analyze, optimize, and provide fabrication support for the development of optical systems for diverse application. It provides a powerful and easy to use toolkit of optical techniques and calculations that enables you to create superior designs that will work right when built Introduction lectures on CODE V Basic and advanced features of CODE V Lunch Workshop I Optimization of aspheric systems/tolerance analysis Workshop II Diffraction Beam propagation using latest BSP beam synthesis propagation feature
Section Materials.Techologies.Production CoreTech System, Taiwan Cimatron,Israel Bee Pitron, Russia Dr. Evgeny Yablochnikov NIU IFMO www.moldex3d.com www.cimatron.com Moldex3D is the world leading CAE product for the plastic injection industry. With the best in class analysis technology, Moldex3D can help you carry out in depth simulation of the widest range of injection molding processes and to optimize product designs and manufacturability. In addition, its high compatibility and adaptability have provided users with instant connection to mainstream CAD systems, generating a flexible simulation driven design platform Report I I (CoreTech System, Taiwan) Prediction and optimization of plastic molded optical parts with the use of computer analysis of molding processes in Moldex3D software Report I II (CoreTech System, Taiwan) State of the art injection molding technologies of polymer optical parts Lunch Report II I (Bee Pitron, Russia) CAD and pre production of tooling for the parts of optical devices with the use of Cimatron solutions Report III I (NIU IFMO, Russia) Automation system of optical devices assembling: problems and solves Report III II )NIU IFMO, Russia) Simulation of production processes Report III III Mathematical simulation of a precision of microobjectives assembling
Round table 7 th July s Dr. Kimio Tatsuno Dr. Irina Livshits 7 th July 14:30 Round table International cooperation in the field of optical instruments making and technology