Artificial Intelligence Taking Over Jobs


Twentieth century was characterized by marked industrialization and technology taking over the world. Technology started from modification of simple things such as using a computer or software for data arrangement to the advanced tech manifestation such as artificial intelligence and machine intelligence. Industrial revolution was distinguished by many technological changes which ultimately had an effect on all possible factors of everyday life whether directly or indirectly. The utmost difference that was caused by this revolution was the lifestyle change. It took the living standards to whole another level with advancements in every field including transport, nature of work, housing systems, communication methods, food availability, and mass production. Revolution brought a change including technological tools, machines and items to use in the fields, factories and industries and this is why nature of work life and how humans live in the present world is entirely different from old times.

Robotics and Its Role In the Modern World

A branch of knowledge which involves both science and mathematics to design and create machines (robots) that can be used as a substitution of individuals and mimic their actions and human behavior. Robots can be of various shapes and sizes with different functionality and accordingly used for different purposes. With the technological advancements in 20th century robotics has been one of the fastest growing fields and been paving its way into all aspects including industrial, household, medical, agricultural or military work. There have been developed robots of various types which are able to perform different functions and are of use in different fields. For instance major robot implementation in various fields and how they work is explained below.

  • Military Robots 

These are the robots used in the dangerous situations where lives are at stake they perform functions such as seek, evacuate, defend and attack. Many robots are used for military purposes especially by US military and many are in the process of creation. Such robots are a substitution for the soldiers who would be in a life threatening situation or battlefield. Various kinds of robots are being developed with different kinds of applications including patrolling, keeping an eye with cameras and attacking an intruder or for border assignment etc.

  • Industrial Robots 

The massive utilization of robots is seen in industrial field. Five years back the reported number of industrial robots performing activities was 1.64 million and has been growing ever since. These robots are auto-mated and programmed to perform certain tasks which include organizing, collecting, dismantling etc. robots have now replaced jobs that were too dangerous for workers to do such as in mines, on extreme heights, working with enormous weights, welding or other jobs which required working in extreme temperatures. Not only this in order to increase mass production the jobs such as of arranging, inspection of products, labeling of products are taken care by robots now in an increased speed and with more accuracy which previously were done by the laborers but at much lower rate in the factories 

  • Medical Robot 

Advance medical centers are now equipped with robots working alongside humans. The most used form of robots is ‘telemanipulator’ that is controlled by a person (surgeon) on the one hand and performs the required operation on the other. There are surgical robots created which if programmed can perform the surgery in the absence of a doctor.  Rehabilitators are built for the management, therapy and take care of patients especially the elderly or someone who has a disability. There have been robots developed and used to clean and disinfect areas and rooms as required. However, these robots are rare and need a lot of work on them before they will be used at a larger scale.

  • Domestic Robots 

These are used mainly for doing house hold activities but can also involve in performing education, entertainment or other relevant tasks. From doing dishes to cleaning floors or even ironing clothes robots are performing all activities. There are robots made specifically for providing security and alarming in the presence of an intruder. The jobs of house cleaning, dish washing, ironing all household chores are now also done by robots instead of workers.

  • Agriculture Robots 

This is one of the major fields where robots have been used. Taking care of harvest, providing the right conditions, picking up ripped fruits, using sprays and fertilizers to protect crops are a few jobs that are now done by robots instead of laborers. This industry is ever growing and with the use of robots in industry its estimated worth is supposed to reach almost twelve billion in next five years.

Robots Substituting Laborers 

According to estimation almost eight billion people are assumed to lose their jobs and replaced by robots or machines. Especially in richer nations the workers are supposed to be replaced by the automated machines and need to retrain for work in other fields or for other kinds of job.

Following will be the most effected jobs.

  • Data Entry Relevant Jobs 

Such jobs which are associated with data entrance, gathering information, highlighting ideas, converting data formats, coping data from one place to another or any job which requires merely such skills will be replaced by artificial intelligence in coming years.

data entry
  • Journalism 

Artificial intelligence will be able to gather data more precisely, with a more in depth-analysis and more accurately do the constructive criticism on the available information and happenings.

  • Drivers  

After rechargeable cars the latest invention of auto –pilot and artificial intelligence and with successful attempts of AI driving cars and taking them for large distances the regular taxi driver might find their work effected. Moreover with multi- national companies providing taxi services for example uber , using automated taxis with AI will definitely change the nature of  this job availability.

  • Industrial work

This industry is the first one to experience change with the technological inventions and the most affected one until date. Whether it is working in factories or on construction sites loads of jobs in this sector will be taken over by the robots. Packing, inspection, assembly, labeling etc. all such activities are now performed by automated robots and already have replaced human jobs.

  • Agricultural work

Using robots has proved to be more efficient than laborers working in the fields and this is why it has been used and it is a part of future plan to use these robots for the work in fields especially in harvesting.

  • Telecommunicates and customer services

With AI and ML in the play, and availability of chat boxes and much more customized AI services available to customers waiting on lines or online will not be preferred by many people.

Advantages of Technology Use 

The most significant advantage is the saving of lives which otherwise might be endangered or under a constant threat.

With robots use the mass production of food and other life necessities has become more advance ad fast and things are easily available.

Another advantage is the accuracy and efficiency added to each task. One might say the robots are programmed to work or strive to work perfectly and give results that are unquestionable. 

Disadvantages of Technology Use

The major crisis that we are facing due to excessive technology use is the replacement of people by robots or AI. It is supposed that in richer countries almost forty-five percent of jobs will be taken over. This is going to have a great influence on the lives of people globally.

What to do about it?

The most productive way of dealing with any problem is to look for solutions the same goes with this issue. Many people have the opinion that all we need to do is re-train the employers learn skills that are required to thrive in the jobs of different nature. Use of automated robots and AI in industries has proven and expected to increase economy in millions. Hence while taking in consideration the consequences; use of robots can be productive for the mankind.

Business Intelligence Analyst

Business Intelligence Analyst is the person who uses the already collected data and turns it into the game-changing business decisions. He analyzes the data of the company and all the competitors and then creates a report of the current situation of the company, trends it is following and changes required by the company to reach its target. If business and computer science fields excite you then you are in the right direction and you can have your way with flying colors.

Roadmap as a Business Intelligence Analyst:

If you are just in the initial phase and are about to opt for the degree which will lead to a secured job then you are at the right place. You should always be planning and mapping out your educational and career path and look up for opportunities which can assist you to achieve your milestones. These are simple salient suggestions which will lead you towards your goal as a business intelligence analyst.

modern analytics workflow

Degree to opt for:

If you are opting for a degree then these 3 degrees are best suitable for you and you can advance steadily in your direction.

  • Business-related degrees
  • Management Information Systems
  • Any branch of Computer Science

But that’s only enough, to ace your career a relevant college degree or major is not the only thing. Professional experience is also required to get the know-how of how things work outside the books in the real world and how have to perform to sustain and flourish in the professional world.

Work Experience:

During your college years, it’s better to go for an internship in the organizations having a dedicated analytics department where you can learn various software and work dynamics.  These big-name companies work as a ladder towards a bright future and you can secure a prominent position easily with your expertise.

Once you get into the workforce you get the advantage as compared to fresh graduates which can help you secure an executive level position in a reputable organization with your professional knowledge because you already possess all the essential skills which are pivotal for any position.

Business Intelligence Job Roles:

Following are the career paths which you can go for once you get in this field:

  • Business Intelligence Analyst
  • Business Intelligence Developer
  • Business Intelligence Consultant
  • Business Intelligence Engineer

Skills Required by a Business Intelligence Analyst:

Just being qualified and having the degree is not one need to be a successful business intelligence analyst, there are certain skills which need to be acquired in order to be the guru of this domain. Let’s delve into the skills which can turn you from an ordinary business intelligence analyst to a successful one.

Problem Solving:

A BI have to be very creative with decision making, collecting the data and creating the results out of it or only analyzing the data is not the only thing a business intelligence analyst is supposed to do. He should be smart enough to come up with new techniques and timely solutions so that a problem would not turn into a disaster. He should put up clear suggestions which would assist executives with the helping hand and would result in better business decisions.


While this field is all about having the strong grip on all hard skills and how good you are with your work, the only soft skill which remains constant at every step is how good you are at communication. The essence of communication cannot be ignored at any level and you are required to be efficient in listening and delivering your message fully with the desired body language and tone.

Programming Language:

A person working as a BI will always have an edge if has a grip on programming languages and he can use them effectively but the most common programming language which is mandatory for every BI is the SQL, the most commonly used langue to manage data.

Industry Knowledge:

Having the said degrees and certification is not enough, you should also have the deep insights about the industry you are working in, for instance, if you belong to some educational sector then you should know the stats and dynamics of this sector and how things work here. It has a deep effect on your performance.

Data Analysis:

Analytical skills are key skills which can’t be ignored in any profession but in BI you can’t survive without this particular skill. You should be smart enough to go through the huge sets of data and create a pattern out of it or you analyze it a certain manner that you can generate some useful result.

Data visualization:

To present your data and working in a more readable and clear form, its visual representation is the most effective manner. It not only makes data easy to understand but also helps people to understand the patterns, trends, and correlations more easily which were chaos in the text form.

Highest paying engineering jobs

The ten highest paid jobs in engineering

Engineering is overgrowing.Experienced engineers find many ways to reward jobs in many industries.

The competition for highest paid engineering field jobs can be very competitive, and as with most careers, candidates who complete formal education, gain work experience, and demonstrate skills are often preferable to those with lower knowledge, experience, and abilities. Here are the ten best engineers who are paid best.

1. Manufacturing engineers

Manufacturing engineers are responsible for finding the most effective and efficient ways to extract oil and gas from underground rock formations. They design and develop methods of using water, chemicals, gas and oil to remove fat from reserves, conduct research, establish drilling plans and ensure efficient and efficient operation of the oil and gas industry. Engineers are also developing funds to connect oil and gas resources to new or existing wells. Mechanical engineering engineers need to complete a bachelor’s or master’s degree in mechanical engineering and gain practical experience before entering the subject. The average income for oil engineers is between USD 114,080 and USD 166,400 a year.

2. Nuclear engineers

Nuclear engineers study nuclear and radiation for industrial and medical purposes. They design and create processes, instruments, devices, and systems that contain materials used in a variety of industries, from spacecraft to medical imaging equipment. They also maintain and monitor the operation of the nuclear power plant to ensure safety, identify violations of nuclear and legal regulations, issue instructions for handling and disposing of nuclear waste, and develop preventive measures for nuclear accidents. Atomic technicians also respond to plant shutdowns and other emergencies when they occur. Most nuclear-powered engineers have at least a college degree with work experience to qualify for a job that generates between $ 99,920 and $ 142,290 per year.

3. Aerospace engineers

Aerospace engineers design, develop and test aircraft, satellites, spacecraft, rockets and other aerospace products for military, commercial or personal use. Examine and determine the safety of proposed aircraft projects and parts. Aerospace engineers also evaluate the products to ensure that they meet customer requirements and technicians specifications and quality standards. Identify and develop aerospace engineers solutions for aircraft, spacecraft, and broken or damaged parts. Aerospace engineers can start their careers in entry-level positions with a bachelor’s degree, although many employers prefer candidates with a combination of degree and work experience. Salaries for aerospace engineers vary from $ 97,480 to $ 143,360 a year.

4. Software Engineers

Software engineers combine computer science, mathematics, and engineering to design, develop, test, and maintain software or computer systems. They focus on the needs of users and write computer programs. Many work closely with teams of other computer and engineering experts to secure, install, or develop advanced computer systems and software. Software engineers also solve any operational, security or functional problems with software, computer systems, and internal computer networks. Software engineers typically have to have a bachelor’s degree in computer science, software, math, or engineering, as well as experience in using computer systems and applications. Because of the constant change in the industry, software engineers must continue their education throughout their careers. Software engineers who qualify for employment often have an annual income of $ 87,900 to $ 94,520 per year.

5. Engineering Manager

Engineering managers supervise engineering teams in electrical engineering, engineering, construction or industry. Manage, direct and coordinate the research, design, financing and development of products, hardware, equipment and devices. Engineering managers also create specifications, proposals, budgets, and guidelines for engineering teams, customers, and contractors. In doing so, they comply with the legal regulations and predict the effects of the product. Individuals must have a bachelor’s or master’s degree, gain work experience as an engineer, and receive a state license to qualify for employment as an engineering manager. They usually earn 91,180 to 141,730 dollars a year.

6. Chemical Engineers

Chemical engineers study, build and solve equipment problems and production processes for mass production. They apply the technical principles of physics, chemistry and biology to develop, identify and evaluate the safest and most efficient means of producing food, medicines, chemicals, fuels and other materials. Chemical engineers also investigate and determine the cost of manufacturing processes and their environmental impact, without compromising quality and safety. Chemical engineers must complete a chemical or bimolecular engineering program and gain work experience before starting a career ranging from $ 90,300 to $ 139,670 per year.

7. Electrical Engineers

Electrical engineers are developing new and improved electronic components, components, and devices. They also test and solve problems with existing electronics. They also design and assemble new products, test products to ensure safety, and monitor the installation of components. Many create technical drawings and specifications that specify instructions and proper operation. Training as an electrical engineer requires a degree or diploma in electrical engineering. The electrician’s income is between $ 84,500 and $ 128,610 per year.

8. Biomedical Engineers

Biomedical engineers focus on improving the quality, efficiency, safety, and efficacy of medical systems and products. Analysis, design, and solution of problems in biology and medicine. Biomedical engineers make artificial organs, devices, and machines that are used to replace body parts and diagnose medical problems. They are also researching to advance medicine, developing methods to ensure product quality, and testing drug therapies using computer simulations. Biomedical engineers typically complete a bachelor’s or master’s degree in biomedical engineering to advance to positions that earn from $ 81,540 to $ 126,990 per year.

9. Materials Engineers

Material engineers develop, design, process, and test materials to develop new materials and products. Materials engineers use metals, composites, semiconductors, plastics and other materials that meet the requirements based on mechanical, chemical and electrical standards. They also examine, test, create and evaluate the economic factors and standards associated with the development of new products and the development of material processes. Most specialize in ceramics, composites, metallurgy, plastics, or semiconductor processing technology. Materials technicians often complete a Bachelor’s or Master’s degree in Materials Science or Materials Engineering to qualify for employment. The income of most material engineers is between $ 83,120 and $ 126,800 per year.

10. Environmental Engineers

Environmental engineers apply and develop solutions to various environmental problems and problems using principles of engineering, biology, chemistry, and soil science. Environmental engineers deal with global issues such as climate change, sustainability, and drinking water safety, as well as public health issues and pollution control. Environmental engineers are developing means to improve environmental protection, waste management, and recycling programs. You create, evaluate and update reports based on environmental research and environmental improvement programs. Environmental engineers also oversee standard operating procedures for legal plans, legal action, environmental remediation programs, and permits. Besides, they review industrial and municipal facilities to ensure compliance with certain environmental laws and regulations and to respond to hazardous waste and contaminated sites. Environmental engineer training requires a degree in environmental engineering and work experience. Some candidates may study in a related field such as B. Building, chemical, or mechanical engineering and receive additional vocational training. The salaries of environmental engineers range from $ 78,740 to $ 119,060 a year.