Your Passion takes you to your Profession

yourpassionThe word education literally means, “To draw out and polish what is already inside and not mere stuffing of unrelated things”. Essentially it is directed at the students as they are the future careerists but it also has a spiritual implication which emphasizes that if you are working at the wrong place you can never be peaceful, happy, balanced and purposeful. Students these days prefer drifting away from traditional choices to their career and combine their inner passion when exploring the available job openings.

Now-a-days students tend to choose a profession that ignites their passion and at the same time gives them financial independence. They prefer taking the road less travelled than getting into traditional options which have become monotonous over the years. There are exclusive and latest career options like being a mountaineer, editor, umpire, image consultant, etc. the reasons for the inclination towards these kind of career choices is that the professionals have become more creative and give their best towards their profession in turn making a successful career out of their inherent desires.

Students in the present era prefer to work in an environment that is their choice, flexible, interesting and well-paying to suit and meet their ever changing demands. Every aspiring professional should look deep within and chose a career wherein he or she is able to do justice to the job at hand and at the same time give way to the inner tendencies which might at times go dangerous if left uncared for. A successful career for any individual should comprise of talent, interest, growth and development all put together so as to churn out a bright and prosperous future.

Some offbeat careers open to the new generation.

CREATIVE WRITING

Creative writing is the writing in which a writer aims to express his/ her emotions, feelings, imaginative ideas and thoughts, through his or her style of writing.

EVENT MANAGEMENT

This career is for those who have a genuine passion for conducting events and good organizing capabilities.

VIDEO JOCKEY/ RADIO JOCKEY

Video jockeying/ Radio Jockeying is an exciting career option for the music crazy generation. It is an exciting, promising and challenging career for those who have a passion for music.

IMAGE CONSULTANT

Career as an Image consultant is one of the hottest career field which is also known by such titles as wardrobe consultant, fashion stylist, or makeover consultant. These professionals are makeover consultants who advise you on the way you can enhance your look.

GAME DESIGNER

We love to play games and spend hours on playing, it is one of the largest segments of the entertainment industry that is flourishing widely across the world.

BARTENDING

Bartending as a career falls under the food and beverage department of hospitality and tourism industry which involves creating and demonstrating cocktails and mock tails using alcoholic and non-alcoholic beverages/ syrups and much more.

FITNESS TRAINER

Fitness Trainers are known by different names Aerobics instructor, Clinical exercise specialist, Gym instructor, and Personal and Corporate trainers, he or she looks after the issues concerning the health and physical fitness of his/her clients.

­ETHICAL HACKING

Recently there has been an alarming increase in the number of cyber-crime cases on the Internet like hacking email accounts, stealing and intercepting sensitive data, password attacks, abusive emails etc. which creates an urgent demand for ethical hackers.

WILDLIFE PHOTOGRAPHY

If you’re fascinated by animals, nature and enjoy travel, wildlife/nature photography can be an ideal career for you.

ADVENTURE TOUR OPERATOR

This can be a right choice for those who love adventure and travelling.

FASHION CHOREOGRAPHY

If you love to be in the world of fashion and glamour and at the same time be creative, you can opt for a career in fashion choreography.

Computational Geometry applied to multiple fields

Computational geometry has recently benefitted from the interaction between mathematics and computer science. The results are applicable in areas such as motion planning, robotics, scene analysis, and computer aided design.

faceComputational geometry is a division of computer science dedicated to the study of algorithms which can be explained in terms of geometry. Some are purely geometrical problems which arise due to the study of computational geometric algorithms and they can also be considered to be part of computational geometry. The modern computational geometry is quite a recent development but it is one of the oldest fields of computing with its history stretching back to ancient times. Computational intricacy is vital to computational geometry, with great practical importance if algorithms are used on very large datasets containing tens or hundreds of millions of points. The progress in computer graphics and computer-aided design and manufacturing (CAD/CAM) led to the development of computational geometry but many problems in computational geometry are traditional in nature which crop up from mathematical ideas.

The essential applications of computational geometry:

Robotics – It is one of the branches of mechanical and electrical engineering and computer science that connect with the design, construction, operation, and application of robots and computer systems for their controlling, giving sensory feedback, and information processing.

Geographic information systems – It is a system designed to capture, store, manipulate, analyze, manage, and present all types of spatial or geographical data. The acronym GIS is also used for geographical information science to imply the academic discipline or career within the broader academic discipline of Geo-informatics.

Integrated circuit design – It is a set of electronic circuits on a small plate or chip made of silicon usually which is a semiconductor of electricity. This can be made much smaller than a distinct circuit made from independent electronic mechanism. ICs can be compressed, having up to several billion transistors and other electronic components in an area which is the size of a fingernail.

Computer-aided engineering- It is the broad usage of computer software to aid in engineering study tasks including Finite Element Analysis (FEA), Computational Fluid Dynamics (CFD), Multibody dynamics (MBD), and optimization. The tools that are developed to support these activities are considered CAE tools which analyze the robustness and performance of components and assemblies.

Computer vision- It is a field that includes methods for acquiring, processing, analyzing, and understanding images and high-dimensional data from the real world in order to produce numerical or symbolic information. It helps to duplicate the abilities of human vision by electronically perceiving and understanding an image. It is also the enterprise of automating and integrating a wide range of processes and representations for vision perception.

The GD&T program at CADD for engineers imparts you a thorough understanding of the Dimensioning specifications which defines the nominal, as-modeled or as-intended geometry of parts and tolerancing specifications which defines the allowable variation for the form and possibly the size of individual features and allowable variation in orientation and location between features. The upcoming designers can use symbolic language on engineering drawings and computer generated 3D solid models to explicitly describe nominal geometry and its allowable variations. The program thus further emphasizes the broad usage of computer software to aid in engineering study tasks combining the elements of mathematics and computer science. To know further please visit our website.

https://www.caddcentre.ws/geometric_dimensioning_tolerancing_course.php

The shifting trends and curves of the ever innovative AEC Industry

feb15_builThe AEC industry has experienced a major shift in terms of innovation and transition. With every year expected to be a step ahead of the previous one, the shift of trends seems to follow one another with the implications of new technology and new integration. As observed the AEC industry with relevance to its heartbeat CAD has experienced a building of social good getting transformed from thoughtful conversations and unique imaginative ideas, to the robust development of industries and an increase in their standards.

The standards of the AEC industries are all set to increase with the cost of technological advances considerably driving down. A long term process is what the industry is focusing on in order to initiate a long term business and work towards building a more specific goal oriented purpose in reference to added focus on designing and building.

We also witnessed in these past years that how with the development of technology, the real estate developers have already enjoyed privilege in terms of the initial construction cost as they experienced various benefits arriving due to the advancements that came along with the shift of trends in the AEC industry.

Now there has been something worth considerable in terms of development factors where the building for social good has been a subject to a massive growth which showcases the progress of understanding among individuals and not just the AEC. This understanding is set to grow further and will aid the plans for future as the next five to ten years are basically going to be purely empathized on the technology and the workflow where the feel good benefits will be hard to resist.

Along with the AEC, the unmanned Aerial Vehicles are expected to grow exponentially with the devices nowadays are becoming more than efficient and capable of carrying out the specified oriented task because of their small size and their less expensive rates. It is capturing the existing conditions which are one of the most difficult and costly aspects during the process of getting a project completed.

With the increase in time and an increase in optimization and specialization, the use of Reality Capture and UAV’s are expected to develop more and improve greatly as these companies are expected to deliver a high level of accuracy at a very low cost in terms of conducting the mass data, a task which they are empowered to carry out.

For the AEC community, one thing for sure is going to become the hot ticket and that’s the Virtual and augmented reality. The real estate owners and the managers of property have now started to request for the structure design or being more specific the building design before it is built. They now have realized that how they would experience the environment and landscape with the help of the unique virtual and augmented reality.

 

The world is harnessing the terms innovation and experimentation to the core and as a result of it, we already have something very compelling with us, which in today’s time can provide us with a realistic 360-degree of a project. This already has been proven out to be a major boost for those AEC professionals who can engage their senses and interact within a model and then emphasize and stress their mind on how to make better design decisions during the planning process – before the start of construction.

Engineering Tools Take to the Cloud

jan-2015_drawAsk most engineers about the possibility of running their CAD or CAE programs in the cloud and you’re likely to get a blank stare or an earful about why the software delivery model poses problems. Critical design IP (intellectual property) isn’t safe in the cloud, they contend, or they question whether graphics-intensive applications like CAD can run optimally when solely dependent on Internet bandwidth. Many are quick to shrug off cloud computing as just another passing technology fad.

Major players in this space, from Autodesk to Dassault Systèmes, to a handful of smaller companies like Arena Solutions, have stepped up to the plate with serious strategies around the cloud to deliver CAD, PLM, and CAE offerings. While many of the services are still clearly evolving and some still semi-experimental, the new generation of 3d modelers see real potential in leveraging the cost benefits, scalable computing horsepower, and ease of collaboration capabilities of the cloud to push product development to the next level. Outside of the engineering world, the cloud has already gained significant traction. Companies have moved many of their core enterprise systems around finance, sales, marketing, and even HR to the cloud via software-as-a-service platforms, and many of those same engineer skeptics are already working with cloud-based tools without necessarily knowing it.

“Most engineers today don’t spend eight hours a day doing pure engineering work, they are in CRM (Customer Relationship Management) systems, they are in supplier systems, they are doing collaboration, and believe it or not, those systems are all in the cloud,” said Brenda Discher, Autodesk’s vice president, manufacturing strategy and marketing. She explained: “It’s not about moving manufacturing or design to the cloud, it’s about moving the right processes to the cloud. We are now just learning about the different industries and different development phases that really fit nicely with the needs of customers and capabilities of the cloud”.

Cloud-based collaboration
so, while heavy-duty 3D CAD modeling may not make sense in the cloud just yet, experts argue that a number of tried-and-true engineering tools and practices do. Leveraging the infinite and highly scalable compute power of the cloud lends itself to simulation, and Autodesk, as well as others, are releasing services around plastics and CFD simulation that enable companies to tap the cloud to run huge simulations that they otherwise couldn’t run or could run only with an arsenal of dedicated, expensive compute horsepower. Beyond the ability to handle larger and more complex problems, simulation in the cloud also means engineers can run more studies simultaneously — a change in design workflow that can lead to better exploration of different design variations and optimization of products.

‘Feeling’ Virtual Objects in Virtual Space

jan-2015_virtuIs this a next-level CAD HMI (human-machine interface)? Miraisens Inc., a Tokyo-based company, recently unveiled what they are calling “3D-Haptics Technology.” This new technology allows users to “feel” virtual 3D objects, and move them around in virtual space. The technology is a first and has a lot of promising applications in the gaming world, the medical industry, and 3D printing.

Miraisens is a spin-off company from the National Institute of Advanced Industrial Science and Technology in Tsukuba, Tokyo. Their new technology opens up avenues for innovation in a wealth of different fields. It is interesting as it expands technology’s ability to engage our human senses. While we haven’t yet been able to touch something within the digital world, 3D-Haptics Technology now makes this possible, virtually. The current technology works using a virtual reality headset, a bracelet with hardware attached and a fingertip molding that is wired to the hardware on the wrist. The technology can also be wired into a coin-shaped mold, a stick, or a pen. The handheld molding emits vibrations on the fingertips that allow users to “feel” 3D objects in virtual space, which they see on their virtual headsets.

These vibrations trick the mind into recreating sensory feelings of touching, pushing, pulling, and experiencing resistance from 3D virtual objects. For instance, the device can allow a user to feel the resistance of pushing a 3D button in virtual reality. It can also allow users to push, pull, and move 3D virtual objects around, emitting vibrations that recreate a sense of object resistance, even though it’s only occurring in virtual space.

The technology literally makes virtual reality “feel” more real. The applications within the gaming world are self-evident. The company is also considering using the technology to allow users to create 3D prints via touch. This would eliminate the need for a professional design, and allow novices to create 3D prints at the touch of a virtual button.

More interestingly, there are talks of implementing the technology within the medical industry as a new tool for performing remote surgeries. Some think that the technology could be used to help visually impaired people navigate more easily through haptic sensory information. This is all promising, and it looks like we’ll be seeing companies implement better haptic controls in the future.