MOOCs, 3D Environment, 3D Printing, & Wearable Technology
SYNCHRONOUS
Courses that require live attendance and adherence to a course schedule
3D PRINTING
It all starts with a 3D model. You can opt to create one from the ground up or download it from a 3D library.
Massive Open Online Course
Meaning of MOOC
Massive Open Online Course
Online courses that a student accesses through the internet.
Location Settings
The viewer can get visually specific sensations.
MOOC'S ENROLLMENT AND PACING
Varies by the type of course or program.
a) Selective Laser Sintering (SLS) b) Multi Jet Fusion (MJF) c) Direct Metal Laser Sintering (DMLS)
(3) POWDER BED FUSION
No physical location dependence
This can improve collaboration efforts and save time by eliminating a student's daily commute. Online education also enables social distancing.
Outdoor location, Indoor location
3D Environment can be done for both:
1. No physical location dependence 2. Improved access to higher education 3. Affordability of higher education 4. Flexible learning schedule
4 BENEFITS OF MOOC
1) Vat Photopolymerization 2) Material Jetting 3) Binder Jetting 4) Fused Deposition Modeling (FDM)
4 TYPES OF 3D PRINTING TECHNOLOGIES AND PROCESSES
1) Detailed Concept Development 2) High-Definition Sketching 3) Environment Assets Creation 4) Hyper-Focused Texturing 5) High/Low-Poly Modeling 6) 3D Rendering & Optimization
6 SERVICES which are Commonly Included in the 3D environment Design services:
1) Vat Photopolymerization
A 3D printer based on this method has a container filled with photopolymer resin. The resin is hardened with a UV light source.
Wearable Technology
A category of electronic devices that can be worn as accessories, embedded in clothing, implanted in the user's body, or even tattooed on the skin. The devices are hands-free gadgets with practical uses, powered by microprocessors and enhanced with the ability to send and receive data via the Internet.
3D PRINTING
Additive manufacturing
Wearable Technology
Also known as "wearables"
Wearable Technologies
Any kind of electronic device designed to be worn on the user's body. Such devices can take many different forms, including jewelry, accessories, medical devices, and clothing or elements of clothing.
c) Direct Metal Laser Sintering (DMLS)
Basically, the same as SLS, but uses metal powder instead. All unused powder remains as it is and becomes a support structure for the object.
3D ENVIRONMENT
Can be taken as a computer-controlled digital setting, which appears as a background in the videogames and animated movies. It is created with the illusion of depth.
Certificates
Certificates for completing individual courses range from about $20 at the lower end, to around $300, with the average being between $50 to $100.
University Credit
Courses in this tier are university accredited and comparable to online courses at institutions that provide degrees.
Corporate Training
Deployed on an enterprise level. This pricing option is typically structured as a per-user cost for access.
b) Multi Jet Fusion (MJF)
Developed by Hewlett Packard and works with a sweeping arm which deposits a layer of powder and then another arm equipped with inkjets which selectively applies a binder agent over the material. The inkjets also deposit a detailing agent around the binder to ensure precise dimensionality and smooth surfaces. Finally, the layer is exposed to a burst of thermal energy that causes the agents to react.
3D PRINTING
Encompasses many forms of technologies and materials as 3D printing is being used in almost all industries you could think of. It's important to see it as a cluster of diverse industries with a myriad of different applications.
ASYNCHRONOUS
Flexible, self-paced courses
Massive Open Online Course
Free online courses available for anyone to enroll.
Wearables are electronic technology or devices incorporated into items that can be comfortably worn on a body. These wearable devices are used for tracking information on real time basis.
How Wearable Technology Works
2) Material Jetting
In this process, material is applied in droplets through a small diameter nozzle, similar to the way a common inkjet paper printer works, but it is applied layer-by-layer to a build platform and then hardened by UV light.
SYNCHRONOUS
Instructor - facilitated Requires all participants to be virtually present at the same time. Scheduled and timed online tests, and virtual classrooms, web conferencing technology and interactive shared whiteboard.
Sheet Lamination
Involves material in sheets which is bound together with external force. Sheets can be metal, paper or a form of polymer.
3D LIBRARY
It's a massive library of 3D models including vehicles, characters, animals, architecture, devices, and more.
1. Free 2. Certificates 3. Micro-credentials 4. University Credit 5. Online Degree 6. Corporate Training
MOOC certification levels typically fall into the following 6 general categories:
Flexible learning schedule
Many courses are self-paced, which can accommodate student work schedules. Even if course completion is not self-paced, as with online degree programs, prerecorded lectures can offer more flexibility on a daily and weekly basis.
Improved access to higher education
Not only is this a function of convenience, but access to high-quality education in developing countries can ultimately increase quality of life and contribute to sustainable development efforts by providing a high-quality, accessible learning infrastructure.
Online Degree
Programs are equivalent to master's or continuing education degree programs at universities and offer comparable volume and depth of coursework.
Micro - Credentials
Programs typically consist of three to six courses. Typically, they are narrow in focus and provide a specific skill or competency.
Affordability of higher education
Scalability makes these types of courses more cost-effective than in-person courses of comparable scope.
ASYNCHRONOUS
Self directed - self paced Does not require all participants to be virtually present at the same time. Use message boards, discuss groups and self- paced online courses.
Free
These courses are completely free, but usually only to audit. However, students still have the option to pay for an official certificate of completion at the end of the course.
Directed Energy Deposition
This process is mostly used in the metal industry and in rapid manufacturing applications. The 3D printing apparatus is usually attached to a multi-axis robotic arm and consists of a nozzle that deposits metal powder or wire on a surface and an energy source (laser, electron beam or plasma arc) that melts it, forming a solid object
a) Selective Laser Sintering (SLS)
Uses a high-power laser to fuse small particles of powder into a mass that has the desired three-dimensional shape. After each cross-section is scanned, the powder bed is lowered by one layer thickness. Then a new layer of material is applied on top and the process is repeated until the object is completed.
Advancements in Modeling
Visual effects of games and movies have been significantly improved with the advent of 3D computer graphics.
3) Binder Jetting
With binder jetting two materials are used: powder base material and a liquid binder. In the build chamber, powder is spread in equal layers and binder is applied through jet nozzles that "glue" the powder particles in the required shape. First developed at the Massachusetts Institute in 1993.
4) Fused Deposition Modeling (FDM)
Works using a plastic filament which is unwound from a spool and is supplied to an extrusion nozzle which can turn the flow on and off. The object is produced by extruding melted material to form layers as the material hardens immediately after extrusion from the nozzle. Invented by Scott Crump in the late 80's.
POWDER BED FUSION
a) Selective Laser Sintering (SLS) b) Multi Jet Fusion (MJF) c) Direct Metal Laser Sintering (DMLS)
