Computer Science vs. Engineering: Which Technical Track Should You Take?

Computer Science vs. Engineering: Which Technical Track Should You Take?

You’ve heard all the hype about STEM (science, technology, engineering, mathematics) careers again and again, and you’re starting to consider them pretty seriously. Your analytical nature and problem-solving abilities have you thinking a career in technology or engineering may be the right move.

But you’re having trouble weighing computer science versus engineering. Your initial research suggests either route can lead to a bright future. So how can you determine which best aligns with your personal skills and interests?

We’re here to help with this side-by-side comparison of the two fields.

Computer science vs. engineering: The basics

You may have an idea of what each of these fields entail, but it’s important to have a fundamental understanding before choosing your path. Both fields require logical thinkers and methodical minds, and they both offer a huge array of career options. But there are still some differences that set them apart from each other.

Engineering as an industry tends to focus on building and designing things out of tactile materials. Engineers draft plans to build everything from helicopters to sewer systems, from medical devices to motherboards.

Computer scientists do somewhat similar work—but in the digital realm. They wield digital technology as well as computing languages to create, improve and build software and applications.

As you can see, the line between these two worlds is very thin, and there are a few professions that straddle the intersection completely. One career is that of a computer hardware engineer. Computer engineers normally have a degree in computer science, but perform the duties of an engineer. In this case, these engineers need knowledge of how computers work in order to build circuit boards, processors and other hardware.

Other than this overlap, computer science primarily concerns itself with the landscape of the digital world, while engineering focuses on the landscape of the physical world. Let’s take a closer look at how these two fields differ in other ways.

Computer science vs. engineering: Common job titles

With a better understanding of the fundamental differences behind computer science and engineering, you’re probably curious about the careers in each field. Both industries offer a variety of positions that could potentially intrigue you.

We used job posting analysis software to examine job postings from the past year in each field. This data helped us identify the top five job titles in each industry.

Most common computer science positions

Software application developer

Job duties:

• Designs and customizes computer applications software
• Modifies existing software to optimize operational efficiency or correct errors
• Evaluates software requirements and user needs to determine software feasibility

Computer systems analyst

Job duties:

• Analyzes data processing problems to improve computer systems
• Develops and tests system design procedures
• Enhances system compatibility so information can be shared easily

Network systems administrator

Job duties:

• Installs and supports an organization’s network system
• Examines website functions to ensure performance without interruption
• Performs data backups and disaster recovery operations

Information security analyst

Job duties:

• Installs software and firewalls on an organization’s computers
• Performs safety tests to determine any vulnerabilities in a network
• Creates disaster recovery plans for IT employees to follow in event of an emergency

Web developer

Job duties:

• Writes, designs and edits webpage content, or directs others producing content
• Identifies and corrects problems uncovered by testing or user feedback
• Backs up website files for immediate recovery in case of problems

Most common engineering positions3

Electrical engineer

Job duties:

• Researches, develops and tests the manufacturing and installation of electrical systems
• Creates technical drawings or topographical maps to help guide installation and operations
• Directs efforts to ensure compliance with specification, codes and customer requirements

Materials engineer

Job duties:

• Designs, plans and develops materials used in a range of products
• Oversees a team of technologists, technicians, scientists and other engineers
• Calculates technical specifications, economic factors and impact of materials on the environment

Mechanical engineer

Job duties:

• Oversees installation, operation, maintenance and repair of mechanical equipment
• Reads and interprets blueprints, computer-generated reports or technical drawings
• Investigates equipment failures or issues to diagnose faulty operation and recommend solutions

Industrial engineer

Job duties:

• Designs, develops and evaluates integrated systems for managing industrial production processes
• Estimates production budgets and cost-saving methods for management review
• Maps out the layout of equipment, materials and workspace to achieve maximum efficiency

Civil engineer

Job duties:

• Oversees the overall integration of technical activities in architecture or engineering projects
• Consults with various stakeholders to discuss project specifications or procedures
• Prepares and presents proposals, reports or findings to clients

Computer science vs. engineering: job outlook

The list of job titles shows the variety of careers available in the fields of computer science and engineering. Knowing what you’ll be doing day in and day out is important, but the practical side of you also needs to know more about the strength of these career fields.

As you can see, both computer science and engineering tracks can provide you the opportunity to earn an above-average income. It’s important to note that salary ranges vary depending on the actual position you pursue and do not reflect what you would earn at entry level, but evaluating an average for each field can give you an idea of the possibilities.

Projected employment growth

Judging by this category, it’s clear that computer science-related positions look to be growing at a faster rate. Some of this may be due to the maturity of the industries—in the grand scheme of things, computer science and technology positions are relatively new compared to the well-established engineering field, and it stands to reason maturing industries have additional room for growth.

Computer science vs. engineering: Education requirements

Another important factor to consider is the amount of education you’ll need to be eligible for these roles. Working in computer science or engineering requires an in-depth understanding of technical concepts. This means you’ll need to prove you’re qualified for the job by completing some formal education.

The choice is yours

In the question of computer science versus engineering, only you can decide which career path is right for you. The information above should help you weigh your options in order to determine which best aligns with your specific abilities and aspirations.

If you wish to leverage your logical mind in an industry that’s on the rise, it’s worth taking a closer look into computer science careers.

Amiraj College of Engineering & Technology

Ahmedabad-Gujarat

Atmanirbhar Bharat Abhiyan -The Next Generation of Reforms

According to PM Modi, one of the key ways to build an Atmanirbhar Bharat is to buy and promote local products and brands and be ‘vocal for the local’. He highlighted that global brands that exist today were also local once but when people began supporting them, they became global.

How to build an Atmanirbhar Bharat?

Prime Minister Narendra Modi called for Atmanirbhar Bharat Abhiyan, which will focus on making the country self-reliant. He emphasised on the need for going vocal for local, and stated that the scheme will be based on five key pillars: economy, infrastructure, system, vibrant demography and demand.

According to PM Modi, India’s 5 Pillars of Self-Reliance include:

1. Economy that will bring not just incremental change but a quantum jump.
2. Infrastructure that will become modern India’s symbol.
3. System that will be technology-driven and not based on policy of past century.
4. Demography that is our strength, will serve as a source of energy for self-reliant India.
5. Demand and supply cycle of India will boost the economy and provide the power to harness its full potential.

In this 5 pillars Infrastructure, System, Demand and supply cycle of India ‘vocal for the local’ brand production, promotion and selling is directly beneficial for Industries and Engineering students.  It will create a huge opportunities of engineers and Technical experts. With the emergence of several public and private sector job opportunities in the engineering sector the education system of the country has also evolved. Several government and private institutions are functioning in the country offering engineering education and helping students build a better career. Here are some of the most popular branches of engineering in India which are job and industry oriented:

Engineering Departments in India: Scope, Career and Future

Mechanical engineering

With great exposure, learning and pay packages Mechanical engineering is one of the chosen departments by students across the country.

The job profile of the Mechanical Engineers can be classified into R&D, Analysis, Production, Testing, Designing, Installation and maintenance.

The basic task of a Mechanical Engineer would be:

• To design and Implement the modification of the equipments in order to improvise the safety and reliability
• To create the specifications of the project along with the team mates
• To perform the tasks of developing, testing and designing
• To manage the entire project applying the essential skills required for project management

Mechanical Engineering – Job Opportunities

Job opportunities for Mechanical engineers are widely available across the India. There is always scope of growth and exposure in the field of Mechanical Engineering. According to several surveys it is found that by 2021 Mechanical Engineering shall be the highest paid option to choose for building a career.

Electrical engineering

Electrical Engineering involves the understanding and application of electricity and electronics. It is  one of the fastest growing sector and one of the most interesting branches of engineering. The subjects being studied in Electrical Engineering courses involve the topics related to computer, electronics & communication, transmission & distribution of electricity etc.

Designations and Job Description

The job profile or positions of the Electrical Engineers can be classified into Quality Control Engineer, Design Engineer, Reliability Engineer, Test Engineer etc.

With the rising need of electricity and energy requirements the demand of Electrical Engineer has also risen up. These are the following job responsibilities of an electrical engineer:

• To design and develop the efficient most electrical equipments and machinery
• To control the equipments for generating energy using electricity
• To organize and supervise the manufacturing, installing, maintaining, support system and testing the equipments and electrical machinery to assure the specifications and customer requisites.
• To transmit and distribute the electrical energy and telecommunication

Computer Science Engineering

With every business and organization going digital, the IT sector today is a booming field as compared to other sectors and there is a huge demand of Computer Science Engineers and programmers. The demand is so high that IT companies recruit engineers not only from the Computer Science and IT branch but also from other branches like Electrical, Electronics, and Mechanical. However, engineers who have pursued CSE will have an edge over engineers from other streams because of the knowledge and skills they gather in college. There is a huge scope of placements in CSE. In fact, it has taken the top position in placements as compared to the other fields.

Civil Engineering

Civil engineering is the best branch of engineering from the growth perspective. The demand for skilled civil engineers will never slow down worldwide as infrastructure projects, constructing the building and much more structure will keep on increasing and will never be stagnant.

There are several initiatives to be implemented in Education Sector under Atma Nirbhar Bharat Abhiyan. These initiatives will transform the education

In order to promote creative and critical thinking and also to improve communication skills of the students, joyful and experimental learning are to be focused under the framework. The curriculum will be rooted to Indian ethos. Also, the curriculum will be prepared in such as way that the students will fulfill global skill requirements.

In Conclusion

The list of jobs mentioned in this article is by no means exhaustive but provides a good cross-section of the current job market.

Why Choose Engineering?

It is said that engineering is not just a degree, but a way of thinking. Even though the number of engineers in India has proliferated over recent years, the demand for good engineers has remained constant. Engineering continues to be a popular option for higher education among students as indicated by the rising number of candidates who appear for engineering entrance exams like JEE Main (previously known as AIEEE) and JEE Advanced (previously known as IIT-JEE.)

Engineering is one of the few professions where creativity meets originality and innovation and this explains its popularity.

Job Satisfaction

It’s important to find a career that you enjoy. After all, you’ll probably be spending eight hours or more a day, five days a week, at your job. Engineering can provide a satisfying field of work.

Variety of Career Opportunities

From electrical and computer engineering to environmental and biomedical engineering, an engineering degree offers a wide range of career possibilities. But the majority of today’s college graduates will have more than one career during their work life, and engineering can provide a strong foundation for almost any one of them.

Potential to Benefit Society

As an engineer, you can choose to work on projects that benefit society, such as cleaning up the environment, developing prosthetic aids for disabled persons, developing clean and efficient transportation systems, finding new sources of energy, alleviating the world’s hunger problems, and increasing the standard of living in underdeveloped countries.

Challenging Work

There is no shortage of challenging problems in engineering. There is no single answer, no answer in the back of the book, no professor to tell you that you are right or wrong. You must devise a solution and persuade others that your solution is the best one.

Intellectual Development

An engineering education will “exercise” your brain, developing your ability to think logically and to solve problems. These are skills that will be valuable throughout your life – and not only when you are solving engineering problems.

Creative Thinking

Engineering is by its very nature a creative profession. Because we are in a time of rapid social and technological changes, the need for engineers to think creatively is greater now than ever before. If you like to question, explore, invent, discover, and create, then engineering could be the ideal profession for you.

Technological and Scientific Discovery

Do you know why golf balls have dimples on them, or why split-level houses experience more damage in earthquakes? Engineering education can help you answer these questions, and push you to ask new questions of your own.

Financial Security

Engineering is a lucrative career. Engineering graduates receive the highest starting salary of any discipline.

Engineering job outlook

Prestige

Engineers help sustain our nation’s international competitiveness, maintain our standard of living, ensure strong national security, and protect public safety. As a member of such a respected profession, you will receive a high amount of prestige.

Professional Environment

As an engineer, you will work in a professional environment in which you will be treated with respect, have a certain amount of freedom in choosing your work, and have the opportunity to learn and grow through both on-the-job training and formal training.

IIoT is Driving the 4th Industrial Revolution. Are You In?

We have crossed almost two decades of 21st Century. The transition from generation X to generation Y changed the approach of doing their work and living. But the transition from generation Y to generation Z is changing the way we work.

Generation X people use to go to high schools with their books in their hands, enter the school mart their attendance in the registers. A step later, the generation Y use to go to school, with laptops in their hands and enter the class with their biometric attendance. Now, generation Z has virtual classes and schools are offering them entire study material fit into a DYOD (Develop Your Own Device). This is the effect of the 4th Industrial revolution and IIoT is the fueling it. Let us see the history of Industrial revolutions and see how IIoT Solutions resembles the latest industrial revolution.

First Industrial Revolution

Minimized human to human working culture and brought human close to machines. It replaced agriculture with industry as a prior source of economy. Development of steam energy triggered this process and worked as a catalyst. The inception of rail routes at this time helped the human and material exchange to be fast with easy.

Second Industrial Revolution

Minimized the role of machinery and introduced human to Industries. The role of Gas, Oil, and Electricity played a vital role in setting it up as a base of human livelihood. In this time, the new methods of communication with telegraph and telephone came into existence. Now also, the speed of transportation had an acceleration with the invention of planes and the automobile. The large factories were the players of the economic source.

Third Industrial Revolution

This minimized the role of manual work in industries and brought humanity closer to electronics. With this phase in the picture, nuclear energy became the driving force of it. Use of computers and robots took place in this span. During the same time, new innovations and researches, notably in the field of space and biotechnology nurtured.

Fourth Industrial Revolution

This revolution minimizes the role of humans itself and setting them behind to manage things at the front through the internet. It is empowering things to work upon sensors, think upon algorithms and decide upon artificial intelligence. Now, the internet is working as a fundamental need of all operation and IIoT helps the internet to create a nexus and work. This way, it reduces human efforts, makes work with intelligence.

Industrial IoT Services: The Driving Force of 4th Industrial Revolution

Internet of Things is changing the pictures of a human life entirely. You wake at midnight and go to the kitchen to drink water, IoT sensors will turn on lights for you automatically. Or at your workplace, when your printer is about to exhaust with its ink, it will notify you in advance that it needs a refill.

IIoT is the key player in the transition of the Fourth Industrial Revolution. Key player because it has all the trait to transform the industrial process and take it to the next level of a supreme modern process. Its ability to save manpower, cut cost, give convenience to human livelihood. Moreover, it works 360 degrees in all fields. Whether it is an industry, house or anywhere else, it will benefit you in all direction.

Cloud Based ERP – The Advanced Tech Solution for Manufacturing Industries!

Cloud-based ERP system is the upcoming trend in manufacturing industries. Though being the slow adopters of technology, this industry can leverage the best-in-class cloud ERP system to enhance profitability. It is hard to ignore that the rising cloud technology is beneficial to manufacturing firms helping them manage their inventory and resource planning processes. Let us know how cloud-based ERP system can change the perspective of manufacturing business owners.

ERP for manufacturing industry simplifies the complex functions. Software development companies are adopting the changing market requirement and preparing themselves to serve, the business-specific ERP and CRM solution for businesses. They are moving towards the cloud to leverage the marvelous features.

Why Manufacturing Firm Rely on Cloud-Based ERP?

ERP system implemented in the businesses increases productivity as it helps to organize and planning of the tasks and processes.

It is a Cost-Effective Solution

Cloud-based ERP system does not require any investment like the traditional on-site ERP system requires. Manufacturing firms need to consult the cloud service providers to rent the required space on the cloud for business functioning. This will reduce the overhead over the local systems. Select the cloud service providers that offer better maintenance package and proper implementation to keep the solution business ready.

It Increases Revenue

The manufacturing firms using cloud-based ERP generates more revenue as compared to the traditional ERP system. It requires less investment and adds to the strength of the company finances. Cloud-based ERP system manages the business data and simplifies the complex processes easily. It requires less hardware, thus for installing and integrating it does not requires technicians, which ultimately saves thousands of rupees.

It Reduces Manual Efforts

Requires less manpower to manage the ERP system! Once the cloud-based ERP system is installed in the business, it can be accessed from any system connected to the cloud. Manufacturing firms do not require hiring proficient geeks to manage the cloud-based ERP software. Just a few sessions of training about how to access the solution for the employees and they can easily manage the cloud solution.

It is Customizable

Cloud-based ERP systems can easily be customized given the organizational requirements. Customization also reduces its cost. Installing the customized cloud solution and maintaining the manufacturing business specific ERP solution will cut OPEX and CAPEX both. Thus, enterprises with special and seasonal requirements can leverage the benefits effortlessly.

Analyzing business requirements is the best idea to make the right decision on selecting vendors, ERP solution, features to be implemented and the maintenance packages.

How Automotive Industry is One Step Ahead with IIoT

The internet of things is not a new concept anymore. What began as asking the weather for the day has quickly evolved into asking digital assistants to perform a string of connected tasks. These connected tasks called routines set off one action after the other. For example, once you turn off your alarm, the next action is set into motion to open your curtains, play your morning playlist, and turn on your coffee maker. This happens because of the Internet of things.

The Internet is in everyday things: smart blinds, smart plugs, and your digital assistant’s integration with music services.

Similarly, Industrial IoT Solutions streamline the operations carried out in the factories by connecting all the machines with the internet.

They take the daily taxing, time-consuming, repetitive tasks and automates them. The automation saves a lot of time, resources and reduces the risk of human error.

Let’s explore the internet functions in the automotive industry.

Reasons why IIoT is required in the Automotive Industry:

The automotive industry is one that uses heavy machinery to make heavy machinery. Humans are prone to making errors, but machines, when programmed right, have much lesser odds of making mistakes.

In the automobile industry, making a mistake even in a single unit can cost someone their life. So a lot of responsibility goes into making vehicles.

How IIoT is improving the Automobile Manufacturing Process:

Vehicle manufacturing generally happens in two parts, manufacturing of parts and then the assembly of the vehicle. And both the processes need to be precise. An error of a centimeter would render a part useless.

But then the industrial internet of things is not called the fourth wave of the industrial revolution for no reason.

Bird’s Eye View: IIoT solutions show a bird’s eye view of everything. Once equipped in your business, it can also predict the long-term issues your products may face. An intelligent tool can calculate the longevity of the vehicle making hardware that you are using.

IIot solutions will also take care of efficiency. With the help of the right sensors on machines, you can build robotic arms that can carefully carry parts of vehicles from point A to B or assemble the vehicles.

Software Updates: Industrial IoT solutions help you cut down on errors this way. Machines enabled with IIoT can also work round the clock and can be upgraded by software updates.

Predictive Asset Tracking: IIoT also gives the ability to check up on the health of the machines itself. Generally, in an automobile manufacturing factory, production stops every month to conduct maintenance. With predictive asset tracking, the machine will be able to alert the support staff whenever it requires maintenance. This means production doesn’t need to stop until it is actually necessary. It means that the sales target is easier to achieve and the industry can fulfill customer demand effectively.

Similarly, you can configure asset tracking into the vehicles themselves. A vehicle that alerts the user about services, or feature breakdowns, could potentially avoid road accidents and help keep people safe.

Industrial IoT solutions are a boon to large factories. They can help make a safer and efficient work environment. Of course, in an industry like the automobile, it also helps move things along faster, just constantly churning out profits.

25% of the automobile industry has already implemented IoT solutions and are going to increase their R&D budget to 27% in lieu of the 19% that they spend today. This industry is leading the IIoT implementation among other ones that also use heavy machinery.

Why engineering is a great career

A career offering a huge range of rewards

So how good is a career in engineering?  Very.  There really aren’t that many careers that offer such a huge range of rewards, that let you use both sides of your brain and have a real impact on the world around you.

Just think, a job where no day is exactly like another, where you can use creative thinking and engineering skills at the same time, where you work as a part of a team, where you can travel, make a real difference and earn a good salary.

Here’s what Renishaw believes are the reasons why engineering is a really great career:

Job satisfaction

What better career to make the most of your interest in science and maths?  As a professional engineer, you get to tackle real problems and find the best solutions.  It demands creative, imaginative and logical thinking.  The world changes constantly, so too does engineering.  Every working day is different.

Teamwork

Creating the best solutions to complex problems also requires close collaboration and clear communication – with customers, suppliers, and fellow engineers.  So teamwork is a key ingredient of a successful career in engineering and you’ll be working with the smartest and most interesting of like-minded professionals.

Employability

Creative thinkers, problem solvers, communicators, team players, it’s not surprising that engineers are some of the most sought after people for a diverse range of jobs.  All kinds of businesses recognize engineers as people that are very well-educated and good at solving problems.  That’s a great person to have in any team, in any industry.

Exploring the world

You can even travel the world with a career in engineering.  Engineering industries are global industries, spanning the Americas, Asia, and Europe.  Engineering projects can be all over the world and meeting customers and investigative fieldwork are important parts of many different engineering jobs.

Making a difference

Is there another career where you can make such a direct impact on the world?  You might be helping to build a high-efficiency aero engine; energy-efficient homes; life-saving medical equipment; self-driving cars, a whole new form of renewable energy.  The opportunities to make a positive difference to the world are endless.

A good salary

A career in engineering requires a pretty unique set of skills. So it’s only right that it comes with a competitive salary. It’s a fact that university graduates with an engineering degree earn at least 20% more than the average graduate salary. They can also expect to earn a lot more during their career than graduates in most other subjects studied.

Great prospects

Just think renewable energy, cybersecurity, space travel, manufacturing, human genetics, preventing disease, tackling poverty and global warming… the prospects for a fulfilling career in engineering are boundless.  Engineering skills are readily transferable from one industry to another and the country needs more engineers.

The UK simply excels at engineering.  It’s estimated that we need to be at least doubling the number of engineering apprenticeships and graduates each year just to keep up with demand.

The country has more than 0.5 million engineering companies and in the ten years to 2020 an additional 1.86 million workers with engineering skills are estimated to be needed.

As the biggest private sector employer in Gloucestershire Renishaw employs 100’s of engineers.  Who knows, one day you might be one of them.

Emerging careers trends in engineering and technology you need to know

Engineering isn’t all about civil and mechanical only anymore. We live in a digital era where AI, machine learning, cloud computing, and blockchain skills rule. Are you prepared for the future of technology?

The engineering and technology jobs of tomorrow will be far more exciting, challenging and rewarding. They will focus more on knowledge creation and innovation.

With the advent of the digital era, the last decade has seen a plethora of changes in the way the human race communicates, commutes and entertains. We have already entered the phase where engineers across industries are co-working with robots that are auto-programmed to update their intelligence by fetching live data from their environment.

In today’s highly competitive and complex world, a degree in engineering no longer guarantees job security. Future engineers will require additional specialization and skills to adapt to the rapid digitization of industries.

Co-existence of Man and Machine

Studies claim that by 2025, we will lose almost five million jobs to automation. Does this portend the end of the world for engineers? The answer is no. Machines need human expertise to succeed. What they can do is bring precision and speed to tasks that are currently manually executed.

Jobs of tomorrow will be far more exciting, challenging and rewarding. They will focus more on knowledge creation and innovation.

A study done by Teamlease reveals that 37% of jobs which exist today will change in one form or the other.

The day is not far when thousands of BOTS will work alongside humans to book appointments, deliver customer support, book online tickets, etc.

In fact, professional services firm EY has predicted a five-fold increase in BOT intervention at our workplace next year.

Companies like Bajaj Auto are one of the early beneficiaries of using collaborative robots or cobots in India, deploying around 150 robots to work on their shop floors.

Improving the employability of graduates

Modern engineering is undergoing rapid changes with booming industries like travel and healthcare going through a major revolution using digital technologies. To be able to adapt to the changing landscape, students should look for opportunities to enhance their skills and gain hands-on industry experience in real-life applications.

The advantage with students today is that they are digitally savvy, making it easier for them to adapt to contemporary engineering concepts.

To enhance the employability of young graduates, AICTE has revised the model curriculum for all engineering graduates with a reduced number of 160 credits.

The government along with educational institutes is providing platforms to encourage innovative thinking in young grads. The Smart India Hackathon is one such platform where students get the opportunity to explore, experiment and solve real-life industry problems.

Newer technologies redefine engineering streams

Engineering will continue to be a sought after career stream in the years to come. What is changing is the landscape on which industries innovate and flourish.

Forbes listed Machine learning (ML) and Artificial Intelligence (AI), Internet of Things (IoT), Security, Digital Twins, Blockchain, BOTS, Intelligent Apps, Cloud Implementation, Business Intelligence and Analysis, Mobile and Client Computing as the top 10 Digital Quality Trends for the year 2018.

As we step into 2019, these technologies will continue to create avenues for innovation.

Science, Technology, Engineering, and Math (STEM) today are solving most of our problems and STEM graduates are in hot demand. The future is going to bring forth opportunities for students to work on problems which we have not seen or experienced thus far.

Holistic skills in demand

Jobs of tomorrow require interdisciplinary and multi-disciplinary knowledge. In order to thrive in a competitive, changing environment, engineering and technology students have to:

• Think out of the box
• Read industry relevant publications
• Possess or develop critical and complex problem-solving abilities
• Be more open to taking risks and accepting failures
• Be more creative and have extraordinary people skills

While it is important to innovate, it is equally important to strive for improvement. Being a digitized world is not enough. What the world needs is a digital winner.

AI holds the potential of democratizing, enabling creativity for all

Artificial Intelligence is the hottest buzzword in the technology space. With almost all major sectors including healthcare and education embracing the technology, leading tech players are too launching platform and services to keep up.

Amazon, IBM, Google, and Microsoft are some of the top names that have been making giant investments in the AI space. Adobe, one of the oldest tech companies, is also taking a shot at the technology with Sensei. As a proof of concept, Adobe has included Sensei AI platform in various consumer platforms. For instance, its basic Scan application uses AI to convert physical business cards into digital cards.

What will be the best way to define Artificial Intelligence?

Be it web searches or e-commerce recommendations or voice assistants, artificial intelligence

has become a substantial part of our everyday lives. Giant business companies view Artificial Intelligence as a transformational force in creative expression and business. Owing to its ability to reduce the mundane of the creative process, AI holds the potential of democratizing and enabling creativity for all. For businesses, AI enables faster and smarter decision making by bringing actionable insights out of complicated information. This helps to ease the delivery of timely and customized customer experiences. Our fundamental belief is that if AI is developed in a manner that serves the creator and respects the consumer, it will make the advent of the internet and mobile phones look minor by comparison.

What are the top products and services using Sensei?

Today, there are dozens of Sensei-powered capabilities in product or in Adobe pipeline across Adobe Creative Cloud, Document Cloud, and Experience Cloud. These capabilities are helping their customers streamline and optimize their workflow – whether they’re designing an app, editing a photo or film, or launching a marketing campaign. Sensei is unique in two fundamental ways: First, it harnesses the vast amount of data and content flowing through our cloud solutions. Second, it has a deep understanding of how our customers work in the design and delivery of great experiences.

Adobe Sensei’s intelligent capabilities in Adobe Creative Cloud are helping automate mundane tasks, allowing creatives to spend more time on inspiration and design. Sensei is at the heart of Adobe Document Cloud with technology that works on your behalf, automating repetitive tasks and boosting productivity. Within Adobe Experience Cloud, Adobe Sensei crunches data – helping marketers see how their customers behave and help anticipate what they’ll want next.

What Sensei has to offer to end users?

We are building Adobe Sensei as a creative partner to help tackle time-consuming tasks that get in the way of creative vision. No one ever wants to take three hours to do something if they can do it in three seconds. Sensei is helping users tackle complex experience challenges of today, such as understanding large amounts of content at a deep level, like the sentiment of documents, the language of images, illustration, etc. and takes over the repetitive tasks, so users can spend more time on bringing their ideas to life. It empowers users to deliver relevant, personalized experiences in real time by learning what customers want, identifying significant events and making recommendations to reach the right customer at the right time.

Emerging technologies like AR/VR, AI and ML are reshaping the way we engage with the world around us. Each one of us today is a storyteller and is finding ways of doing so with impact.

Robotic Process Automation or RPA

Like AI and Machine Learning, Robotic Process Automation, or RPA, is another technology that is automating jobs. RPA is the use of software to automate business processes such as interpreting applications, processing transactions, dealing with data, and even replying to emails. RPA automates repetitive tasks that people used to do. These are not just the menial tasks of a low-paid worker: up to 45 percent of the activities we do can be automated, including the work of financial managers, doctors, and CEOs.

Although Forrester Research estimates RPA automation will threaten the livelihood of 230 million or more knowledge workers or approximately 9 percent of the global workforce, RPA is also creating new jobs while altering existing jobs. McKinsey finds that less than 5 percent of occupations can be totally automated, but about 60 percent can be partially automated.

For you as the IT professional looking to the future and trying to understand technology trends, RPA offers plenty of career opportunities, including developer, project manager, business analyst, solution architect, and consultant. And these jobs pay well.

If you’re interested in pursuing a career in RPA, the Introduction to Robotic Process Automation (RPA) course is the place to start.