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Create your future in Augmented Reality, Virtual reality and Mixed Reality

Augmented and virtual reality add a new dimension to technology-enabled teaching and learning.

Through the use of augmented reality, we have the opportunity to see fragments of virtually inserted visuals, video, music, or GPS data and information superimposed over a view of the real environment. The GPS location on your smartphone is probably the most well-known example of augmented reality. In addition, you can have an experience of augmented reality by using other apps such as:

Froggipedia
Augment
Jigspace
View
Quiver

A complete submersion into the world of computer-generated reality is what is meant by the term “virtual reality.” Although it is not always attainable at the moment, the ideal form of virtual reality will comprise the simultaneous stimulation of all five senses, namely sight, hearing, smell, taste, and touch. However, this is not always the case at the moment. The utilisation of virtual reality simulations can be beneficial to industries such as tourism, shopping, education, healthcare, and Industry 4.0. There are a plethora of virtual reality (VR) products currently available, including:

Oculus Go
HTC Vive
Virtual Reality for the PlayStation®
The Hololens from Microsoft
Google Cardboard/daydream view

A combination of Augmented Reality and Virtual Reality is known as Mixed Reality (MR). Virtual reality (MR) is a technology that combines your vision of the real world with computer-generated or digitally-created images. In addition to this, it makes it easier to anchor and interact with things that have been virtually inserted into the area that you are in. Because MR and AR are now located in such close proximity to one another, this proximity may lead to some confusion. A form of augmented reality that is both more engaging and more interactive is called mixed reality (MR). The items found in Hybrid Reality are more accurate representations of their respective real-world applications. Take for example the Hololens app, which is considered a hybrid or mixed reality.

Microsoft has designed the Hololens HMD (Head Mounted Display) with advanced sensors that detect your interaction within a mixed environment. It analyses how you interact with the digital data present in your actual view environment. The Hololens is an example of a holographic device used for mixed reality. Other Immersive devices include the Acer Windows Mixed Reality Headset and the HP Windows Mixed Reality Headset Developer Edition.

The Hololens is also considered as holographic device. Other Immersive devices include the Acer Windows Mixed Reality Headset and the HP Windows Mixed Reality Headset Developer Edition. These HMDs are opaque and completely block out the outside world. In addition, they use a camera for tracking and surveillance purposes.

Hybrid Reality can be utilized for educational purposes, such as in the fields of mechanics, medicine, Biotechnology etc. It aids in worker assistance by providing clear instructions.

Figure: Mixed reality in Microsoft hololens

It interacts appropriately with the real-world scenario and generates superior solutions and practises.

AI and Metaverse: An Important Integration of Technology!

AI and Metaverse have the intention of driving and integrating various virtual transformation technologies. In addition, the future of the Metaverse is a hot issue of discussion among specialists in the field of technology. The Metaverse is a universe of virtual reality that enables user interactions by making use of a wide range of technologies, such as AI, augmented reality, virtual reality, and so on.

In addition, users are able to interact with three-dimensional digital items as well as virtual avatars by making use of a variety of technologies and solutions. AI and the Metaverse collaborate to bring out breakthroughs and advancements that herald the beginning of a new era of reality. Bloomberg predicts that the market for the Metaverse will reach $783.30 billion by the year 2030, with a compound annual growth rate (CAGR) of 13.10 percent. According to the findings obtained by McKinsey, fifty percent of respondents stated that their organisations had already incorporated AI in at least one aspect of company operations. According to a study conducted by Deloitte, forty percent of employees report that their companies have a comprehensive AI strategy. Artificial intelligence (AI), augmented reality (AR), virtual reality (VR), fifth-generation wireless (5G) networks, and blockchain are all expected to work together to create a virtual reality within the Metaverse, which is a primary component of Industry 5.0.

The term “Metaverse” is derived from the combination of two words: “Meta,” which refers to transcendence or virtuality, and “verse,” which is a contraction of the word “Universe.” To put it another way, the Metaverse is a digital reality that, by employing a wide range of technological methods, recreates the conditions of the physical world. In addition to this, it creates a virtual space for users by utilising various technologies such as virtual reality, augmented reality, artificial intelligence, and so on. In addition to this, it brings together the digital and real worlds in order to provide users with the ability to purchase and sell solutions, produce things, engage with people and locations, and so on. As a consequence, the following is a list of the primary Metaverse levels:

Infrastructure: The data centres, central processing units, graphics processing units, cloud computing, and other technologies are used to build the infrastructure and environment of the metaverse.
Human Interface: Human Interface also encourages people to interact with the virtual world by utilising cutting-edge technologies in their experience. The experience can be improved, for example, by using mobile phones, smartwatches, smart glasses, and other types of wearable technology.
Decentralization: In addition, the Metaverse manages massive data collections, which necessitates the use of a decentralised approach to problem solving. Edge computing, blockchain, microservices, and other similar technologies all offer options for the processing and examination of data.
Computing in Three Dimensions: Three-dimensional computing makes it easier to digitalize Metaverse products, services, and solutions. In addition to this, it makes Metaverse interactions and activities much simpler and more effective.
The Creator Economy: As the popularity of the Metaverse continues to rise, it drives creators, developers, and service providers to provide improved virtual solutions.
Experience: Artificial intelligence, virtual reality, augmented reality, and extended reality, as well as other technologies, are used to design the functionalities of the Metaverse in order to offer its users a one-of-a-kind experience.

What role does AI play in the Metaverse?

The purpose of artificial intelligence is to facilitate a wide range of Metaverse functions. In addition to this, it makes it easier for users to access a variety of virtual world environments. In addition to this, it helps users create content and promotes human engagement with other users while also providing support virtually.

Integrations of many types of reality, including augmented reality, virtual reality, and mixed reality, are what AI and the Metaverse are all about. AI also broadens the possibilities of the Metaverse by enabling users and businesses to produce, purchase, and sell a wide variety of products, services, and solutions. This, in turn, creates new opportunities. In addition to this, it would encourage users to work together with both other users and businesses in order to broaden their scope of available prospects.

AI not only enables the virtual world to deploy a variety of services but also enables the Metaverse to do so by combining the virtual world with NLP, computer vision, and neural interface. Because of this, artificial intelligence plays a significant part in the Metaverse, which provides dependability and enhances performance for a more satisfying experience.

In addition to this, the building of translation systems for new AI models and virtual assistants is a necessary step in the process of developing AI for the Metaverse. In order for the Metaverse to be realized, it is necessary for AI to reach its full potential and become reliable in people’s everyday lives. In addition to this, it claims to give pictures, sounds, and sensations that are extremely lifelike.

Artificial Intelligence in Health Care: A New opportunity to build Career

In lockdown era of Covid-19 outbreak, creates a recession in different working sectors and numerous people lost their jobs in different areas. After pandemic, new job opportunities have been opened up. Among them, AI in health care is considered as one of the promising one. In the context of covid-19 pandemic there exist shortage of health care personnel and this not fulfilling the diagnosis response at the emergency stage. Integration of AI in health care can be considered as a promising option to overcome the shortage of health care personnel. Now question is that how a computer Engineer can incorporate AI in health care. The applications of AI into health care have been categorized into three groups.

Patient-oriented AI
Clinical oriented AI
Administration and operational Oriented AI

The Patient oriented AI system can directly improve the patient care. According to the report of UK Govt., if the AI-enabled symptoms checker is coupled with the telemedicine technology, reduced number of physicians visits in hospitals. Different Machine Learning and deep learning-based (ML/DL) algorithms have been considered to train the aforementioned AI-enabled symptoms checker system where the several symptoms of the common diseases have been considered as the training data.

Apart from this, several organizations adopted the chatbot system to improve the patient care. Chatbot is a software program that automatically chat with the patients through text or voice messages. A chatbot system, initially collects information from patients. After analyzing this information using different Computer vision techniques, provides the information regarding the present conditions of the disease as well as, what he will do. In some places, the chatbot systems are not capable of collecting the patients’ information, a wearable device can play an important role. These wearable devices sense the patient’s disease information through some sensors and AI-based methodologies provide the actual conditions of the disease. Another noteworthy fact is that AI can improve the accuracy in disease detection.

In developing countries like India, the doctor and patient are low and an individual clinician works nearly 14-18 hours in a day. Due to this extensive workload, clinicians may overlook the early sign of the disease. A computer aided diagnosis system (CAD) can assist doctors to detect these symptoms at the early stages. The researchers from University of Calcutta said that their implemented CAD system is capable of detecting lung nodules at early stages which may indicate lung cancer if it is detected at later stages.

Furthermore, AI can also increase the efficacy of the targeted therapy. AI is capable of identifying the accurate effected area of the abnormal tissue. By supervising the effected area through computers, a clinician can provide the drug to the patients.

Apart from the computer vision techniques, the natural language processing (NLP) also improves the clinical outcomes. In daily clinical practice, clinicians often required previous disease history, medications doses and the family history of the disease to prepare appropriate diagnose plan. In health sector, the data are stored in an unstructured manner i.e., the health sector-maintained paper-based work. Due to extensive workload these data may lost. The Electronic Medical Record or EMR is a software where the NLP techniques can store large number of clinical text data in a structured form. In present context, the existing EMR software is very costly. This necessitates the AI-based health care industry to implement a low cost and more accurate EMR tool for improved diagnosis procedures. The Norway based Globus.ai’s AI enabled EMR system shows that it fills clinical data 90% more faster than the human work. Another interesting application of AI in health care is robotic surgery. In this application, different computer algorithms have been automated for different surgeries. However, the general decisions are still taken by the surgeon.

Beside the clinical outcomes, AI can also improve the patient safety. It has been observed that, several patients suffer from adverse drug effects i.e., the drug is not suited for the patient body. Israel’s MedAware’s patient safety platform considered different ML algorithms to detect and reduce the risk of medication error.

This discussion reveals that to provide improved health care, participation of AI engineers in heal care industry become an inevitable option. This creates huge job opportunities to the engineers.

5G Implementation to 6G Evolution in IoT

The change from landline phones to the movability that 1G distant advancement offered was an immense leap. However, in our view, the leap from 4G to 5G is in much the same way enormous, as 5G is the vessel that will broaden the Internet of Things (IoT) climate decisively. We expect the creating number of related contraptions passing on at higher multi-gigabit data speeds and dare to increase network capacity to work with 5G’s gathering rate. Besides, as individual and corporate clients experience 5G’s benefits, they will clear a path for 6G’s augmentation — which history proposes is most likely going to come sooner than later.

Key Points

Broadband IoT, including 4G and 5G far off headways, is ready to outperform 2G besides, 3G as the part that engages the greatest piece of IoT applications from one side of the planet to the other by 2027.
The amount of related IoT contraptions generally extended by around 9% in 2021 to 2.3 billion unique endpoints. Moreover, that number should pass twofold to more than 27billion when 2025.
The energy for 5G continues to grow with associations beforehand executing the advancement. 5G should make 4G old by 2030, along these lines, with everything taken into account 6G could be Again ready to change IoT.

5G Network Expected to Widespread in 2025

As with each new alliance, a mass get-together of 5G will take time, yet not as much time as its forerunners. The 3G social affair wasn’t fast due to purchasers floundering towards change and 3G’s more extreme expense networks. The clearest system for drawing in an agreed data network development combines exploring the speed at which past cell networks were made. Shipped off in 2001, 3G cell networks didn’t change into the norm until 2007, when clients embraced 3Gconnected phones — four years after 3G opened up and 16 years after 2G moderate accessibility opened up. Generally, 4G cell networks were conveyed in 2009 and changed into the standard four years eventually later in 2013 — two years faster than the 2G to 3G change and simply a brief timeframe after 3G shipped off.

Cell Information Network Ages as The Years Progressed

As per these certain examples, we expect 5G’s gathering rate to go on in the steps of 4G’s fast move to standard. After a restricted scope course of action in 2015, as attempts began testing 5G advancement, current appraisals suggest an overall inevitable gathering of 5G occurs in 2025 4G flexible enrolments are projected to top at 4.7 billion in Quarter 4 2021, and a short time later constantly decline to 3.3 billion around the completion of 2027, as 5G transforms into the fundamental participation choice.

Telecoms Report for 5G Adoption Evident Already

In its middle, 5G is planned to further develop the IoT’s buying experience. Purchasers will need to get to cloud organizations rolling from multiplayer cloud gaming, extended reality (AR)- filled shopping experiences, and permission to free robots for movements. As buyers experience 5G power, the more they’re likely going to research. Additionally, according to telecom providers, the word is getting out. Verizon itemized that 25% of its buyer distant clients used 5G-capable contraptions under a year after their conveyance, well before 4G’s 10% gathering rate a year after ship off. As a part of the 5G increment, telecoms are shutting down additional laid outages, including 3G, to reuse frequencies and work on their 4G and 5G associations. AT&T logically progressed away from the 3G relationship in February 2022 T-Mobile means to make a move as needs be in July, and Verizon before the ongoing year’s over by the completion of 2027, 40% of cell IoT affiliations should be broadband IoT (4G/5G).

5G’s Power on display

A couple of extraordinary IoT associations are early adopters of 5G advancement. From time to time, 5G made their more prepared models old. In various cases, 5G nudged the improvement of new advances. One model is Qualcomm’s Snapdragon, the association’s adaptable structures on a chip (SoC) thing suite. In handsets, the Snapdragon 8 Gen 1 is the world’s most significant 5G modem-radiofrequency reply for showing up at a 10-gigabit download speed or 10,000 megabits. At this speed, colossal data records can be downloaded rapidly. For setting, 4K spouting across different contraptions expects around 100 megabits or 1% of Snapdragon 8 Gen 1’s most extreme limit. Qualcomm checks that 5G-engaged handsets will show up at 750 million units sold in 2022. Cisco’s Catalyst 900X trading stage is another model. In light of Cisco’s Silicon One development, the 900X licenses the association to use quick Wi-Fi 6E sections to give 5G and cloud-based game plans. It expands the presence of existing cabling from 1 to 10 gigabits. Cisco hopes to offer 5G as an a-organization game plans commonly open to private endeavors, the advancement ability of which could be gigantic given the prerequisite for further developed data speeds, cloud accessibility, and flexibility in blend strategies. All around, attempts reliant upon security, similar to the Federal Emergency Management Agency, and organizations, such as programming as-expert association, Zendesk, relied upon Cisco’s switch advancement. Cisco expects spending on private LTE and 5G association establishment by relationship to outperform $5.7 billion by 2024. Likewise, mechanical innovation association ABB worked together with frameworks organization and telecom association Ericsson to make the keen handling plants address what might be on the horizon. ABB expects to include 5G advancement to motorize client help with utilities, present-day, transport, and structure pieces. 5G should allow more modern office robots to exploit the cloud for more unmistakable figuring power and discard comparatively inefficient and extreme in-house central dealing with units or plans taking care of units. All the while, robots can be controlled utilizing a 5G remote organization inside a distance of 1.5 kMS and in any case show steady control, given 5G’s super-low torpidity capacities. The overall market for 5G in cloud mechanical innovation should create at a 79.2% form yearly improvement rate to reach $10.6 billion by 2028.

5G Adoption to Surface the Way for 6G

We guess that fundamental tailwinds ought to result from 5G’s ability to relate, all things considered, everyone and everything speedier and more strongly than any time in late memory. Additionally, 5G’s accelerated gathering rate near to its predecessors will set up the overall economy for an altogether faster rollout representing things to come. 6G, which could hit the market by 2030, will offer more imperative use of circled radio access association (RAN), terahertz (THz) range for essentially more prominent cut off, lower dormancy, and better reach sharing so various classes of clients can safely have a comparative repeat gathering. With inventive work in progress starting around 2020, 6G will progress IoT impressively further towards a possible destiny of totally savvy and autonomous structures. Regardless, first, we’ll embrace 5G and its benefits as a general rule, which are currently starting to show up.

Advantages of 5G Communication

Fast Speed: The zenith speed of 5G correspondence can reach to 10Gbps up and 20Gbps down. Clients can truly experience speeds of 50Mbps up and 100Mbps down.

High cut off: 5G correspondence network is prepared for supporting high-thickness contraption affiliations and high breaking point data transmission. The presentation rundown of a 5G correspondence network is 1,000,000 contraption relationships for each square kilometer. Meanwhile, the display record of a 5G correspondence network is 10Mbps data transmission capacity per square meter.

High unfaltering quality: 5G correspondences support significantly strong data affiliations. Additionally, a show indication of high steadfastness tends to 0.001% package incident rate. This speed is like fiber optic trades. 5G correspondence network utilizes the consideration and convenience of low repeat band and the high information move limit and high speed of high repeat band to give high trustworthiness correspondence to clients through multi-affiliation advancement.

Low deferral: 5G correspondence has unimaginably low dormancy. Moreover, the typical show record of 5G correspondence’s beginning to end inaction is 1ms.

Low power use: 5G correspondence can figure out the traits of low power usage in unambiguous circumstances. 5G correspondence maintains high rest/development extent and broadened rest when no data is conveyed. In low power wide locale association (LPWAN), IoT has a remarkable application prospect.

6G Infrastructure Scenarios

Other than the utilization of new recurrence goes, an examination concerning new organizations is necessary. While certain uses of 5G will likewise keep on being conveyed in the current 5G groups, which, over the long run, perhaps rethought to 6G.

Industrial Networks

While 5G was inventive in presenting the chance of industry 4.0, we infer that 6G will take colossal steps in changing the social occasion and creation processes. The improvement of present-day affiliations will rely on useful social affairs of current and future radio access advances to the key business 4.0 and past use cases. Current associations are viewed as privatized, zeroing in on insane persevering through quality and ultralow idleness.

The critical strategy use cases are:

Correspondence among sensors and robots
Trades across different robots for coordination of attempts
Correspondence between human current office heads and robots.

Right now, to accomplish the necessities for ultrahigh unwavering quality, most of the business approaches are going on a few spots in the extent of 3.4 and 3.8 GHz, where the spread divert is decently rich to the degree that diffraction ability. Regardless, machines with immense openness in the 6G period will likewise request high information rates close by advancing control and Al to have the decision to convey and manage top-quality visual information, drawing in robotized twins of machines and activities, too s remote inspecting. To this end, we expect the utilization of millimeter Wave frequencies notwithstanding bundles under 6 GHz for the present-day relationship over the going 10 years.

Wireless Personal Area Networks(WPANs)

One more area of affiliation is WPANS and far-off areas (WLANs). These WLANs’ astoundingly short affiliations may be under 0.5-1 m for WPANS and up to 30 m for WLANs. All window WLANs sight be reasonable for this application, taking into account that the affiliation money-related course of action can meet how episode when the higher windows are utilized and where genuine execution advancements exist.

Autonomous Vehicles and Smart Vehicles say Networks

6G could be utilized for data splitting between free vehicles and V2I. In any case, there are questions are expecting traffic conditions and brief distances considering showing up at deterrents talked about before will make the THz packs appropriate for this application. Further, in more, the speedy adaptable relationship between getting wires on train ate roofs and foundations can be utilized for transmission of both thriving’s fundamental data and outright pilgrim information. Such incredibly high rate joins are fitting for THz, yet the high cover ability makes serious areas of strength for beamforming bungles and expected issues with the Doppler spread. While the speed of current fast trains is fundamentally solid, and thus, shafts can be controlled in the right course settled on supposition, the required beamforming gain (and related thin bar width) makes the design touchy to even little deviations from the measures. Besides, high-rehash designs can comparatively be utilized for access among UES and radio wires in the lodges that outright the traveller information, like a (moving) area of interest. Recalling the arising 6G use cases, explicit prerequisites, new recurrent social events, and key sending conditions, we examine the developments expected to be the course of action of 6G radio and centre affiliation plans.

Significance of Computer Science Engineering in a COVID-19 infested Era

Ever since the outbreak of COVID-19 or the novel coronavirus from December 2019 till date, the whole world is adversely impacted by the induced pandemic which has forced on every form of the established system, a drastic change in the day-to-day lives of the people belonging to different strata of the society. The socio-economic setup that was prevalent throughout the world, is already significantly shattered, and hence calls for the conceiving as well as establishing a new system wherein the various functionalities may ensure the smooth and orderly execution of different aspects of the human society can be reinstated keeping in mind the robustness of this system against a pandemic like situation such as these.

This COVID-19 infested pandemic has exposed major loopholes and faulty perceptions regarding the various domains like, healthcare sector, financial institutions & bodies, educational establishments, research & developments bodies as well as public welfare organizations, as a result of which the whole world community stands not just clueless but also helpless in grappling with the current catastrophe.

a) Impact of Covid on the domain

The viral outbreak at a massive global scale has forced governments across the world to impose hard lockdowns and travel restrictions thereby compelling the shutdown of offices that offer varied services related to several sectors. Furthermore, at an individual level, people need to maintain a safe distance and be physically covered (especially facial areas) at maximum times when outside. This has invariably impacted interpersonal communication greatly.

Considering all the above factors, a computer/smartphone device, internet connectivity and a relatively stable power supply has come to the rescue of people in many ways. Professionals associated with the computer science & engineering domain are able to maintain various sorts of data in large bulks securely and meticulously with the help of different technologies. Furthermore, with the advent and development of the internet infrastructure, an abundance of virtual space can be created and managed for warehousing these data. Various applications are these days widely used via handheld devices to serve day-to-day purposes like product or food delivery, cab or train booking, hotel booking, seat reservation at any event, online academic courses, online mails, messaging and meeting and so on.

With this current pandemic prevailing all over, the usage of the above online applications is greatly amplified as these software-based utility tools are proving to be beneficial in running the various sectors simply while sitting at home. More and more people are continually seeking online services and demanding applications that will make it possible in every way to handle various business or commercial activities, smoothen the functioning of the education and healthcare sector and providing real-time support to travel as well as transport services. Even in the entertainment industry and also crime investigation & forensics, complex application development with easy user-friendly outlooks are ever-growing.

In short, the computer science & information technology domain has invariably become even more lucrative, prospective and ever-growing field as the pandemic has forced majority of the services to go “online”. Interestingly, a number of professions has by this time become obsolete and many individuals lost their jobs except for some cases such as this domain. These days the most important and valued element is data on various things and this data is available in such large quantities that it needs organized storage and management. While attempting to find a robust and effective solution to the COVID-19 virus, several amounts of data are being recorded and used. Efficient handling and accessing of such data is thus necessitated which is realized by the applications developed by various professionals who are experts in the computer science field.

b) New trends

As mentioned earlier, several sectors across the world are either closed down or grappling to survive by somehow managing to lift their face up the troubled waters of the pandemic crisis. An interesting trend of relying on online services is being noticed among such sectors.

Education: With almost all academic institutions physically shut down, this sector has shifted to online mode of admission, lecture delivery, examination conduction, assignment delivery, subject-wise note sharing and student evaluation. These activities require the support of some multimedia-enabled devices having a camera, microphone and speaker, online document preparing web services, and virtual (cloud-based) storage space. There has emerged a vogue of online coaching and academic preparation via the use of mobile apps like Byju’s Classes, Unacademy and so on which have reduced the dependency on availing tutors. Altogether, all these necessitate the development of software-based applications that require the expertise of domain professionals.

Healthcare: Currently as the majority of the professionals in this sector are the frontline ‘warriors’ in this battle against the pandemic, naturally, they are highly exposed and vulnerable to the COVID-19 virus attack. Despite the extreme precautions taken, most of them even are losing their lives to this deadly virus given the highly contagious environment they are working in. This has led to a fear of psychosis among the general public to avoid visiting the doctors and other medical professionals for a routine health checkup. As a result, the growing demand for online health checkup from home has led many software and app developers to build such dedicated applications that aid in routine healthcare and delivery of medicines. Some of the prominent apps operating in India are DoctorOnDemand and PharmEasy.

Business, Commerce, Banking & Industry: Several commercial and industrial workplaces are physically shut thereby causing losses and job cuts. A growing need has propped up for automation of industrial machinery and online support to various financial services as well as transactions, remote ordering, selling and purchasing, delivery of items. Some of these applications are realized by popular app services like Yono app (State bank of India), PolicyBazaar, Amazon, Flipkart, Paytm, Myntra.

c) Areas of research

Unlike other domains where research and development include extensive needs for laboratory or enterprise-level facilities and field works, pursuing research in the computer science domain requires just three things at home: a good quality computer system/workstation, internet connection and access to research-level online repositories. There are several open-source development tools that can be downloaded and utilized for effective research. Some of the major domains where computer science has pervaded are Medical science, genetics & genomics, microbiology, transport technologies, core industrial & engineering, basic sciences. Researchers under this domain by sheer knowledge of Artificial Intelligence, Data Science, Machine Learning and Deep Learning are gradually succeeding in presenting automated models for determining the nature and spread of the COVID-19 virus. Although the concept of Artificial Intelligence is not new (coined in 1956 by John McCarthy), the extensive development and the need for massive automation across several fields has uplifted the status of this concept that has led to enhanced research in Artificial Intelligence, Data Science, Machine Learning and Deep Learning. In short, a professional equipped with such domain knowledge easily feels valued and almost indispensable across several multi-disciplinary fields.

Why Computer Science?

“The Computer was born to solve the problem that did not exist before” – Bill Gates.

As a machine reduces the work effort, so does a computer for a typical complex computation. Computer science forces you to deal with a problem in a slightly different way which is a skill that can be applied to life itself. In the era of data, a computer is the most indispensable thing we can think of. Computer science gives you an opportunity in working and understanding hands-on the aspect of data.

Computer Science is the study of principles and the use of computers. The classical areas for a computer science course include discrete mathematics, data structure, theory of computation, compiler design, analysis and designing of Algorithm. The advanced study includes artificial intelligence (AI), computer networks and security, database management systems, computer vision and graphics, numerical analysis, software engineering, bioinformatics.

Apart from this, a computer engineer is supposed to be known as a fluent coder. Coding is the ‘Bread and Butter’ for all computer engineers. Programming or coding is an intriguing sector as it gives us the superpower to regulate computer programs on the go. The main goal for a computer engineer is to make a problem understandable to a machine so that it could solve the problem obligingly. The fluency and smoothness of an application are solely based on the way you design the code. C, the mother of all programming languages, is a general-purpose programming language that is extremely popular, simple, and flexible to use. It helps a programmer to build the base of designing a program. It is a structured programming language that is machine-independent and extensively used to write various applications, Operating Systems like Windows, and many other complex programs like Oracle database, Git, Python interpreter, and more. Java, a high-level programming language, is also the most popular language for its design structure using object-oriented concepts (OOP). When it comes to the web, Java is unparallel. Most of the web-based applications are based on java. Apart from this, there are several programming languages like c++, python, Matlab, R to name a few.

There are innumerable and varied specialization and career options for a computer engineer. After completing his/her B.Tech degree a student may get absorbed in the software industry or may opt for higher studies. There are multiple sub-division and specializations in Computer Engineering which require applications in various sectors. Student can also pursue B.Tech degree in various applied fields:

AI/ML: Artificial Intelligence (AI) are emerging fields that will shape and dominate the future of this universe. Data is one of the most important assets of a company or government agency. It helps us to predict the future based on past experiences. AI has the potential to vastly change the way that humans interact, not only with the digital world but also with each other, through their work and other socioeconomic institutions – for better or for worse. A vast volume of data can be analysed by using a smart alternative, Machine Learning. It can produce an accurate result by designing a fast and efficient model for real-time data.
Blockchain: The duration of the course for B.Tech with specialization in blockchain is four years. Blockchain is currently booming and one of the most popular technologies that have invaded to almost every industry in the world. The world is changing its shape towards cryptocurrency. In near future, Bitcoin will be one of the popular transaction media. The main technology behind this is the blockchain. The technology will help the student to learn different algorithms and to curate the bitcoin on their own.
Cyber Security: Cybersecurity provides an expertise insight analysis on global security threats. In the world of web, to provide a secure web service is one of the main goals. The course on Cyber Security will help to learn different algorithms along with the expertization on ethical hacking, penetration testing, digital forensics. There are immense career avenues open for specialization in cybersecurity. This includes Security software developer, security analyst, security architect etc.
M.Tech Degree in Computer Science: Apart from doing graduation and going for an early job, a student may go for a master’s degree in computer science and engineering along with the specialized degree discussed above.

With the knowledge and concept in the domain, a computer science engineer can be eligible for an immense variety of job opportunities. Some of them are jotted below:

Computer Science engineers are the primary resource of the software industry. With a sound concept in the subject, a student can crack any of the big houses easily.
Government sectors such as I.S.R.O, B.H.E.L, etc are recruiting computer science engineers having a good GATE score.
Interdisciplinary research is a new trend for Computer Science students. Inter-disciplinary subjects such as IoT, Bioinformatics provides a huge contribution in research for computer science students.
Apart from interdisciplinary research, mainstream research in computer science also provides a huge scope for the student both nationally and internationally.

As a computer science engineer, there are plenty of opportunities in Government sectors as well as private sectors. A focused, sincere and conceptual student has all the possibilities to touch the sky.

School of Engineering and Technology: Striding with Excellence

The School of Engineering and Technology (SOET) at Adamas University is esteemed for its high-end delivery of engineering education, robust infrastructure in the form of well-equipped laboratories with equipment and courses designed for the holistic development of an individual. SOET had ranked among the top Engineering schools in Bengal and East India in the Times Engineering Survey 2019.

The School has an enormous experience in imparting engineering education and has six Departments: Computer Science and Engineering, Electronics and Communication Engineering, Mechanical Engineering, Electrical Engineering, Civil Engineering, and Bio-Medical Engineering. The School currently offers B.Tech, BCA, B.Sc in Computer Science, MCA, M.Tech and Doctoral Programs. Apart from the regular UG and PG programs offered by the School, new cutting edge specialized and new generation programs were introduced in the year 2020 in emerging areas like Artificial Intelligence and Machine Learning (AI/ML), IoT and Embedded Systems, Gaming and Animation, Cyber Security and Forensics and Robotics. The School emphasizes on the development of competent skills among its students in order to make them industry ready. To achieve this objective, the Specialization programs are clubbed with Project Based Learning in big ticket areas like Autonomous Electric Vehicles, Aerial Robotics, Smart City, Design Thinking, etc.

The Project based study approach is accomplished through the following innovative techniques:

Beautiful Mind: It is a parallel learning system in which the students learn all by themselves. Here the resources for learning the technical concepts are the laboratories with equipment, library and internet facility only. The learning is based on the development of projects in a specific domain. This helps the students to learn outside their curriculum.
Design Thinking: This module focuses on innovative methods where students get to learn about various technologies, how to implement them and execute those in real life. It helps to nurture the thinking power of students and lead them to implement innovative ideas for solving the real world problems.
Capstone Projects: These projects have to be undertaken by the students as a part of their curriculum in their academic degree program. They have to choose one of the projects namely Autonomous Electric Vehicle, Smart City, Aerial Robotics, where they learn both the theoretical base of these emerging technologies and hands-on knowledge for implementation.
EQ Labs: Managing one’s emotions while dealing with a group of team members in an organization is of utmost importance. Emotional quotient plays a major role along with Intelligence quotient in grooming a successful manager. This subject covers study of Communication and Collaboration skills, Leadership skills, etiquette and body language etc.
Center of Bio-Computing: This center has been set up mainly for the development of collaborative research or inter-disciplinary research. It provides training in Bio-Computing and support for Bio-Computing projects running under Adamas University.
Center of Waste to Wealth: This center caters to the study of techniques involved in effective waste management to protect our environment and paving the way towards a greener future.

Now, let us have a glimpse of the Programs offered by the various Departments at School of Engineering and Technology at present.

The Department of Computer Science and Engineering (CSE): The Computer Science and Engineering Department offers the following academic programs of study:
Bachelor of Technology (B.Tech) in CSE: It is a four year graduation degree program. Here the program covers core and applied courses in Computer Science. The core subjects include subjects such as Programming, Algorithms, Compiler etc. and applied courses such as Artificial Intelligence, Cyber Security, Deep Learning etc.

There are three Specialization programs offered under the category of B.Tech in CSE:

Bachelor of Technology (B.Tech) in Computer Science and Engineering (CSE) with Specialization (Hons.) in Artificial Intelligence and Machine Learning (AI/ML)
Bachelor of Technology (B.Tech) in Computer Science and Engineering (CSE) with Specialization (Hons.) in Cyber Security & Forensics and
Bachelor of Technology (B.Tech) in Computer Science and Engineering (CSE) with Specialization (Hons.) in Blockchain

The above mentioned Specialization programs cover the study of advanced subjects in the niche areas, hands-on learning in well-equipped laboratories and opening up of attractive job roles.

B.Sc in Computer Science: It is a three year graduation degree program. In this program, the primary focus is on delivering the core theoretical and practical aspects of Computer Science. The subjects covered range from Programming languages, Data Structures, Computer Networks and advanced subjects of Artificial Intelligence and Internet of Things etc.
Bachelor of Computer Application (BCA): It is a three year graduation degree program. Here the program covers core courses of Data Structures, Python Programming, Operating System, Computer Networks etc. The program equips students with Professional skills of Web Designing also. This program also has two specialized streams:
- BCA with Specialization in Gaming and Animation: This new generation Specialization program offers a perfect blend of core Computer Application and Gaming and Animation. Courses such as Game Development-I and II, Drawing for Animation etc. are offered in the curriculum.
- BCA with Specialization in Banking, Financial Services and Insurance: This is yet another new generation Specialization program which offers specialized courses of Financial Accounting, Banking and Economy etc.
Master of Computer Application (MCA): It is a two year post graduation degree program. Here the students are imparted knowledge and competent skills in Programming, Data Structures, Mobile App development, etc. and a basket of electives such as Artificial Intelligence and Machine Learning, Fundamentals of Cloud Computing, Game Design and Cloud Storage etc. are offered in the final year of study.
Master of Technology (M.Tech) in CSE: It is a two year post graduation degree program. The students would learn about the most advanced courses of CSE, paving the path for research and other challenging job roles in Machine Learning, Data Science etc.
The Department of Electronics and Communication Engineering (ECE): The Electronics and Communication Engineering Department offers the following academic programs of study:
Bachelor of Technology (B.Tech) in ECE: It is a four year graduation degree program. Here the program covers the courses in such a way that it encompasses the entire GATE curriculum. Some of the courses taught here are Digital Electronics, Microprocessor and Microcontroller among many others.

There are three Specialization programs offered under the category of B.Tech in ECE:

B.Tech with Specialization (Hons.) in Robotics, B.Tech with Specialization (Hons.) in IoT and Embedded System and B.Tech in ECE with Specialization (Hons.) in Electric Vehicles Engineering. These programs offer the knowledge and competency in cutting edge technologies which equip students with profound skills in these niche areas.

Master of Technology (M.Tech) in ECE: It is a two year post graduation degree program which equips students to learn about advanced fields of communication and VLSI etc. It offers two areas of Specialization programs: M.Tech in VLSI Design and M.Tech with Specialization in IoT and Embedded System. These programs emphasize on imparting technical and advanced skills in the Specialization areas.
The Department of Mechanical Engineering (ME): The Mechanical Engineering Department offers the following academic programs of study:
Bachelor of Technology (B.Tech) in ME: It is a four year graduation degree program. The course curriculum has been designed as per the recommendation of Industry Personnel. It covers courses such as Engineering Mechanics, Machine Drawing etc. The Lab infrastructure is robust and equipped with new and modern tools and equipment for experimentation.

There are two Specialization programs offered under the category of B.Tech in ME:

B.Tech in ME with Specialization (Hons.) in Design Engineering, which emphasizes on aspects of Design in System Engineering, Manufacturing and Engineering Management.

B.Tech in ME with Specialization (Hons.) in Electric Vehicles Engineering, which emphasizes on aspects of design and manufacturing of electric vehicles.

Master of Technology (M.Tech) in ME: It is a two year post graduation degree program. The customized curriculum is inspired by the programs of well-repute offered in universities across the globe.

There is one Specialization program offered under the category of M.Tech in ME:

M.Tech in Design Engineering, which has been designed as per the recommendations of National Design Policy and Indian Design Council encompassing Design enabled Indian industry.

The Department of Electrical Engineering (EE): The Electrical Engineering Department offers the following academic programs of study:
Bachelor of Technology (B.Tech) in EE: It is a four year graduation degree program. It offers the aspirants the knowledge on electrical components, devices and systems. It offers stress on special thrust areas such as Electrical Machines and Power Systems, etc. along with related hands-on knowledge.

There are two Specialization programs offered under the category of B.Tech in EE:

B.Tech in EE with Specialization (Hons.) in Sustainable Energy, which imparts knowledge about sustainable energy to build budget-friendly wind turbines and solar panels.

B.Tech in EE with Specialization (Hons.) in Electric Vehicles Engineering, which emphasizes on aspects of design and manufacturing of electric vehicles.

Master of Technology (M.Tech) in Power and Energy Systems: It is a two year post graduation degree program. The well-designed curriculum focuses on concepts and systems related to electric power and energy.
The Department of Civil Engineering (CE): The Department of Civil Engineering offers the following academic programs of study:
Bachelor of Technology (B.Tech) in CE: This 4 year graduation degree program offers all the relevant courses as per the industry requirement and it is designed with a great intention of fabricating prominent engineers who are competent and committed to the high professional standards in the arena of engineering and technology. It is embracing of structural Design & Analysis, surveying, geotechnical, environmental, water resource and irrigation, transportation etc. This is basic to any kind of construction as industrial, commercial, residential in general.
B.Tech in CE with Specialization (Hons.) in Smart Infrastructure Management: By seeing the current days’ requirement in society, the Department of Civil Engineering has introduced this specialized program that consist of all modernized courses related to Civil Engineering. The courses are as Rural and Urban Planning, Intelligent waste management, Smart materials and infrastructure, Artificial Intelligence in Infrastructure, Intelligent Transportation System.
Master of Technology (M.Tech) in Structural Engineering: Civil Engineering is generally well known for structure and construction. Candidates, who will enroll this course, during 2 years of this program, get awareness about the materials used to design structure and educate individuals on superior concepts of structural engineering through projects and dissertation effort.
Master of Technology (M.Tech) in Environmental Engineering: Students who are fond of advanced course that focus on Environmental challenges and remedial measures can opt this program for 2 years. This program is mainly designed for waste management, Water, Air and Noise pollutions, renewable energy and sustainable development. Research and Development sector mainly recruits candidates from this specialization.
Master of Technology (M.Tech) in Construction Engineering and Management: This professional discipline covenants with the designing, planning, construction, and management of infrastructures. Planning with time management skills is compatible to each other that can helpful to complete a task within time bound. By this specialization, student acquires both Engineering and Management skills.
The Department of Bio-Medical Engineering: The Bio-Medical Engineering Department offers the following academic program of study:

Bachelor of Technology in Bio-Medical Engineering: It is a four year graduation degree program. It imparts knowledge on sought after courses of Mathematical Biology, Biochemistry etc. The Computing laboratories are well-equipped with essential software tools and interfacing kits. It offers career paths in computer-assisted surgery, cellular and tissue engineering, orthopedic engineering etc.

Apart from the above mentioned programs, Minor Programs and Doctoral programs are also offered by the departments at SOET. All the programs have been designed according to the needs of industry and based on emerging technologies to match up to the high-end job profiles. The aspirants have a plethora of options to choose from the above well-crafted programs and to be a part of the SOET family. It is the perfect destination for bright future and career building of the aspirants.