(Almost “German build quality” sort so to speak). The small size box made me believe we only got some accessories to the camera and not the camera itself, so to my surprise, after opening the package, there it was. When the package arrived at our cinema5D premises, I thought there was a mistake. Back in 2013 it was the KineRAW mini which made me appreciate what the relatively new to the market Chinese manufacturer is doing, supplying affordable high quality cameras to filmmakers like us.Īnd then came the opportunity to test the yet to be released KineMAX 6K camera and let me tell you, what a powerful piece of gear it is! This is not the first time that I’m testing a Kinefinity camera. After all, I had to send the camera back the next day. Instead of crying my heart out and kick myself in the head for not running with the camera a day earlier, I decided to live with what I have and give it a try. All I got was a grey windy day with some kind of natural “pro Mist filter” cast. A full LAB review will be published then+++ We tend not to publish our LAB test results unless the camera is in its final stage. This KineMax 6K review and footage are based on a Pre Production model. This project is stand in Yıldız Teknik Univercity review of "yıldızlar".+++ Please note. Second step result is selected as optimum designs. Feedback of dynamic solutions improved the robot design. Which robot moving part is required energy while robot is driving on a curve path and determine the motor specifications from dynamic solutions. Therefore According the workspace specifications are found multiply different Delta robot part of length and diameter using Inverse and Forward kinematic.įirst step result analysis in dynamic equations. Multiply different design provide workspace specifications. Robot design is optimized based on robot kinematic and dynamic via Matlab/Simulink and writing code in Matlab Script. Langrange equation is used for robot dynamics. I did this Project Consultancy, solved robot inverse kinematic and forward kinematic. This Project is 4 DOF Delta Robot Design and Application (4 Serbestlik Dereceli Delta Robot Tasarımı ve Gerçeklenmesi) that is supported by TEYDEB within TÜBİTAK. Project Consultancy was given an automation firm by Asistant Professor V. The solved Robot forward and Inverse Kinematics to be used in robot control is made. Hexapod platform design determined according to the workspace specifications. Servo motor selection was made for hexapod platform. The hexapod platform is modeled with Msc Adams software. MSC Adams software was used in design optimization. Then Optimized parameters with Washout filter code is converted to C/C++ code.Ĭompanies in the entertainment and education products simulator to be used for the hexapod platform design, kinematics and dynamics through design optimization perform. The code is optimized in simulink environment. Therefore to optimum selection of Washout filter Parameters is created Washout filter in the Matlab Simulink environment. Feeling better movement from user depends on Washout filter Parameters. In this way user of hexapod platform feel close real movement like in simulation. Simulation of the movement of data through the Washout Filter and washout filter output is driving the hexapod platform.
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