MathWorks in Academia The Technologies Driving Change Loren Shure MathWorks
MathWorks goal: Change the world by accelerating the pace of discovery, innovation, development, and learning in engineering and science.
20 th Century engineering education
Modeling Gantry Crane Determine acceleration profile that minimizes payload swing Constraints : t f t 1s t 1s t 4s t p1 p1 p2 f t p2 20s 20s 25s
Extending the Approach with SimMechanics Multibody simulation helps students understand the problem and solution Detailed representation (3D animation) Calculate additional quantities Required force, power, relative motion Enables exploration of design considerations Choose cable diameter for required tension Calculate bridge load Determine required motor torque Assess electrical requirements Test nonlinearities (friction, backlash)
Extending the Approach with SimMechanics Multibody simulation helps students understand the problem and solution Detailed representation (3D animation) Calculate additional quantities Required force, power, relative motion Enables exploration of design considerations Choose cable diameter for required tension Calculate bridge load Determine required motor torque Assess electrical requirements Test nonlinearities (friction, backlash)
Extending the Approach with SimMechanics Multibody simulation helps students understand the problem and solution Detailed representation (3D animation) Calculate additional quantities Required force, power, relative motion Force Enables exploration of design considerations Choose cable diameter for required tension Calculate bridge load Determine required motor torque Assess electrical requirements Test nonlinearities (friction, backlash)
Extending the Approach with SimMechanics Multibody simulation helps students understand the problem and solution Detailed representation (3D animation) Calculate additional quantities Required force, power, relative motion Force Enables exploration of design considerations Choose cable diameter for required tension Calculate bridge load Determine required motor torque Assess electrical requirements Test nonlinearities (friction, backlash)
Extending the Approach with SimMechanics Multibody simulation helps students understand the problem and solution Detailed representation (3D animation) Calculate additional quantities Required force, power, relative motion Force Enables exploration of design considerations Choose cable diameter for required tension Calculate bridge load Determine required motor torque Assess electrical requirements Test nonlinearities (friction, backlash)
The efficiency that I have now when teaching fourthyear students is incredible. MATLAB is a common language we all speak. I don t have to waste time bringing them up to speed, and as a result I can get much deeper into the subject material than in years past. Dr. Daina Briedis Associate Professor Chemical Engineering & Materials Science
WHERE? WHAT? HOW?
WHERE? Remote Classrooms Video Examples MOOCs Online Assessment WHAT? HOW?
WHERE? WHAT? Remote Classrooms Video Examples MOOCs Online Assessment Widely Available Software Multiple Computing Devices New Techniques, e.g., Big Data and Analytics HOW?
WHERE? WHAT? HOW? Remote Classrooms Video Examples MOOCs Online Assessment Widely Available Software Multiple Computing Devices New Techniques, e.g., Big Data and Analytics Project-Based Learning Games & Competitions Flipped classroom Lycee and Prepa materials
WHERE? WHAT? HOW? Remote Classrooms Video Examples MOOCs Online Assessment Widely Available Software Multiple Computing Devices New Techniques, e.g., Big Data and Analytics Project-Based Learning Games & Competitions Flipped classroom Lycee and Prepa materials
WHERE? WHAT? HOW? Remote Classrooms Video Examples MOOCs Online Assessment Widely Available Software Multiple Computing Devices New Techniques, e.g., Big Data and Analytics Project-Based Learning Games & Competitions Flipped classroom Lycee and Prepa materials
MOOCs Online course Unlimited participation Open access via the web MOOC = Massive Online Open Course
MOOCs MOOC = Massive Online Open Course
MOOCs
Online Resources and Tools
Online Resources and Tools
Online Resources and Tools
WHERE? WHAT? HOW? Remote Classrooms Video Examples MOOCs Online Assessment Widely Available Software Multiple Computing Devices New Techniques, e.g., Big Data and Analytics Project-Based Learning Games & Competitions Flipped classroom Lycee and Prepa materials
WHERE? WHAT? HOW? Remote Classrooms Video Examples MOOCs Online Assessment Widely Available Software Multiple Computing Devices New Techniques, e.g., Big Data and Analytics Project-Based Learning Games & Competitions Flipped classroom Lycee and Prepa materials
MATLAB Mobile Support for iphone, ipad & Android
MATLAB Mobile Support for iphone, ipad & Android
The cloud, enhancing your MATLAB Desktop MATLAB Distributed Computing Server on Amazon EC2
The cloud, enhancing your MATLAB Desktop MATLAB Distributed Computing Server on Amazon EC2
The cloud, enhancing your MATLAB Desktop MATLAB Distributed Computing Server on Amazon EC2
The cloud, enhancing your MATLAB Desktop MATLAB Distributed Computing Server on Amazon EC2
Big Data in Many Industries Exabyte 1,000,000,000,000,000,000 bytes (billion billion) ENERGY Smart grid FINANCE Fraud detection AUTO Fleet data will influence vehicle design AERO Maintenance, reliability BIOTECH Instrumented humans
Big Data in MATLAB Memory and Data Access 64-bit processors Memory Mapped Variables Disk Variables Databases Data stores NEW in R2014b Platforms Desktop (Multicore, GPU) Clusters Cloud Computing (MDCS on EC2) Hadoop NEW in R2014b Programming Constructs Streaming Block Processing Parallel-for loops GPU Arrays SPMD and Distributed Arrays Machine Learning algorithms MATLAB MapReduce NEW in R2014b
The Rise of Low-Cost Hardware for the Masses Arduino 300,000+ commercially produced Prices ~$30 Raspberry Pi 3 million shipped $35 LEGO Mindstorms EV3 $350
MathWorks.com/hardware Hardware support packages Get connected and running quickly 150 packages today, for Arduino, RaspPi, iphone, webcams, Kinect, and more For MATLAB and Simulink
Real-Time Test System USB Plug-In Device HIL Simulator Custom ASIC Microcontroller CPU-FPGA platforms Microprocessor
WHERE? WHAT? HOW? Remote Classrooms Video Examples MOOCs Online Assessment Widely Available Software Multiple Computing Devices New Techniques, e.g., Big Data and Analytics Project-Based Learning Games & Competitions Flipped classroom Lycee and Prepa materials
WHERE? WHAT? HOW? Remote Classrooms Video Examples MOOCs Online Assessment Widely Available Software Multiple Computing Devices New Techniques, e.g., Big Data and Analytics Project-Based Learning Games & Competitions Flipped classroom Lycee and Prepa materials
Student Competitions
Student Competitions
Student Competitions
Student Competitions
Student Competitions
Magnus Egerstedt Khepera 3 MATLAB Simulation
Lycee and prepa curriculum support Audience: Lycee and prepa Teachers (STI2D, SI) Engineering students FREE BOOK: Physical Modeling and Simulation of Multi-domain Systems Author: Ivan Liebgott, Teacher of Engineering Science (SI) in preparatory classes Content: Getting started with MATLAB Simulink Simscape Stateflow SimMechanics SimHydraulics SimElectronics Control design tools Models + of Classroom Applications Available at MATLAB Central File Exchange
MATLAB for Primary and Secondary Schools Suite Includes: MATLAB, Simulink and 30+ add-on products Built in support for low-cost target hardware Installation across school, teacher, and student computers Additional resources include: Specific resources page for Lycee and preparatory classes MATLAB and Simulink Tutorials Hardware for Project-Based Learning Courseware and Examples mathworks.com/primary-secondary
Palais de la Découverte Maths Week Mathematics at the crossroads of cultures: - Show Math in a new light: playful, practical and dynamic - Inspire students and encourage vocations Lego workshops for students and teachers
20 th Century engineering education
MATLAB MOOC Course Robosub Competition
MathWorks goal: Change the world by accelerating the pace of discovery, innovation, development, and learning in engineering and science.