John McPhee, P.Eng., and Patricia Shaw, P.Eng. DynaFlexPro allows engineering product developers to optimize, simulate, and control their designs to reduce prototyping time and bring their products to the market faster. This symbolic approach not only assists in the design, optimization, simulation, and control of complex engineering systems, it is also suitable for teaching mechanical system design.ĭynaFlexPro was designed to overcome issues with cumbersome, slow, and error-prone numeric-based mechanical analysis tools. The robust computer algebra technologies in Maple create efficient sets of system equations in a symbolic form, which facilitates viewing, physical insight, and sharing. , and launched under the MapleConnect™ Premier program*, DynaFlexPro uses Maple, a powerful and intuit ive tool for solving complex mathematical problems and creating rich technical applications, to symbolically generate the equations of motion for the mechanism.
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DynaFlexPro combines graph theory with engineering mechanics in algorithms that automatically generate the system equations from a system model, and highly-optimized simulation code for real-time and hardware-in-loop applications.ĭesigned by MotionPro Inc. “The latest usability features enable users to produce models of complex mechanical systems without knowing anything about linear graph theory or the Maple command syntax.”ĭynaFlexPro ModelBuilder, a graphical model development interface, facilitates the rapid creation of system models using blocks, lines, and drop-down menus. “Unlike other multibody design tools that use purely numeric solvers, DynaFlexPro generates solutions that are concise and numerically efficient for real-time implementation, at a fraction of the cost of other similar tools,” said Paul Goossens, Director of Commercial Markets, Maplesoft. The ability to select the base coordinate system to which the other system reference frames are mapped, even if users are not familiar with graph theory.An Equation Builder Assistant that walks users through the process of converting the model description to kinematic and dynamic equations that describe the motion of the system.A Model Development Guide, which is a step-by-step guide to creating new models and generating the model equations.A new Project Manager user interface that guides users through the model development process with step-by-step instructions, buttons, and dialog boxes.Significantly enhanced usability features make this release relevant to a wider range of engineers.
#Motionpro inc software
Waterloo, Canada August 22, 2007: Maplesoft ™, the leading provider of high-performance software tools for engineering, science, and mathematics, an nounced today the release of DynaFlexPro 3.0, a Maple ™ package used to model and simulate the kinematics and dynamics of mechanical multibody systems. New usability features dramatically reduce learning curve