Microbiologist: A prominent career choice for biology students

Biology aspirants at School level:

While the interest in studying biology at School level starts with understanding cells, both plants and animals, it takes a peak during the study of human system. While traditional zoology, botany and physiology creates the base for understanding biology, advancements in the form of microbiology, immunology, biotechnology, recombinant DNA technology etc. paves the path of inquisitiveness among the biology lovers at the school level. This lead to the selection of medical or non-medical biological subjects as career option for the aspirant biologists.

Exploring the less known world:

Microbiology has always been frontrunner among the choice of such biology-aspirants for their studies at undergraduate level beyond medical education (Refer: https://adamasuniversity.ac.in/microbiologyplus-the-most-promising-career-path-beyond-medical-education/ ).

‘Knowing the unknown and seeing the unseen” has been the trend of human acumen since the inception of human race. Microbiology stimulates this, with the challenge of finding novel microorganism (bacteria, virus, protozoa, algae etc.) and a plethora of their magnificent properties. Till date the share of known microorganisms has not even reached 1% posing immense prospect for the future. The microbial world extends from the hottest region of the world to the coolest, from the top of the Everest to the Mariana trench and from the gut of human to the solar panel. Diversity of microorganisms holds the key and charm to study the subject.

Knowledge, Skill and Competency development:

Striking balance between diversity as well as specialization is important during the selection of stream/ subject to be opted for career. The three major focus on the 3-4 year undergraduate degree as well as 1-2 years of post-graduate degree lies in the development of theoretical knowledge, technical skills and more importantly competency as life-long learner. Studies in microbiology provides a well-balanced blending of these enhancing theoretical knowledge to strive for innovation, hands-on skills to work in an industry/ research as well as gain like skills and competency to remain relevant and updated despite rapid technological evolution.

Curriculum:

Studies in microbiology at undergraduate as well as post graduate level is generally divided into several courses as mentioned in the following:

  • Fundamental Courses: Bacteriology, Virology, Biochemistry etc.
  • Advanced Courses: Immunology, molecular Biology, microbial genetics etc.
  • Applied Courses: Food and Dairy Microbiology, Medical Microbiology, Agricultural Microbiology, Industrial Microbiology etc.
  • Skill Enhancement Courses: Quality Control & Quality Assurance, Vaccine Technology, Bioinformatics, Intellectual Property Right (IPR) etc.

Most academic institutions follow a Choice Based Credit System (CBCS) to design their curriculum of Microbiology. However, a few institutions also offer ‘Outcome Based Education’, a student centric educational model employed to maximize learning outcome of the enrolled students.

Infrastructure, facility and Instructors:

Studies in microbiology require sophisticated instruments, well-equipped laboratories and well trained instructors to create a strong base for the students. Unfortunately, many institutions lack these facilities and treat it alongside other conventional subjects. The major requirements in supporting all round development of a microbiologists includes (not limited to):

  • Laboratory Facility (Basic): Laboratory with Bio-Safety Level: I (BSL-I)
  • Instruments (Basic): Microscope, Autoclave, Laminar Air Flow, Centrifuge etc.
  • Instruments (Sophisticated): -80°C freezer, Phase contrast microscope, UV-Vis Spectrophotometer, HPLC etc.
  • Facility: Animal Cell Culture, Plant Tissue Culture, Animal House etc.
  • Co curricular Facility: Tinkering Lab, Incubation Centre, Fabrication Lab etc.

technicians trained in microbiology. However, most of the institutes run the UG and PG program in microbiology employing faculty members from other domain of biology (e.g. botany, zoology etc.) not having requisite exposure and expertise in the core domains of microbiology. The emergence of microbiology as a specialized field of biology also demands the involvement and guidance of personnel from the field of microbiology for proper dissemination of knowledge and skill of aspirant microbiologists. People having relevant industrial exposure adds on significant weightage in terms of leveraging benefit to the students.

Career path:

Despite of the abundance of open source information and higher digital access/ literacy, career path remains unclear to most students at the entry level to graduation. Over rated courses, glorified outcome and rationalizing odd success stories make students a victim during admissions. The following career path of microbiologists are stated to uncover the potential strength as well as challenges to be faced:

  • Teaching: ‘Teacher shapes the future of the coming generation’ This still motivates a lot of students to take up teaching at various level viz. school, college or university as their preferred profession. Microbiology graduates are not only eligible to appear for most of the school level recruitment process (e.g. School Service Commission, WB) they find it ease during exam and highly relevant during teaching. Joining colleges (both govt. or private) after the completion of M.Sc. in Microbiology is a lucrative option while clearing NET (National Eligibility Test)is highly competitive. Teaching at university level having independent research career, guiding Ph.D. students is also highly sought after career.
  • Researcher/Scientists: Most of the students of microbiology aspire to pursue Ph.D. on completion of their M.Sc. and conduct research for creation of knowledge towards human and societal development. There are plenty of research institutes, universities offering position of Junior Research Fellow (JRF), Senior Research Fellow (SRF) in the domain of microbiology (e.g. IISER, IIT, Bose Institute, NIBMG, IACS, IICB etc.). Research funding is mostly obtained from government through Department of Science & Technology (DST), Department of Biotechnology (DBT) Indian Council of Medical Research (ICMR), Indian Council of Agricultural Research (ICAR) etc. The researchers receive good amount of fellowship during the PhD tenure, through these schemes. After completion of PhD, students join institutes as senior researchers or scientists. Alternatively, they continue their research as Post-Doctoral Fellow in India or Abroad. The offer of fellowship at this level is attractive and often higher than the salary offered through regular employment.
  • Industry: While knowledge is created at the university level, its implementation is seen in the industry. There is a boom of biotechnology and allied industries that require trained microbiologists at various level. UG level students are employed as Trainee, laboratory technicians etc. in the Quality Control, production department. While students completing M.Sc. are recruited as QC executive, microbiologists etc. Students having Ph.D. are mostly employed in the R&D division. It is to be emphasized that all pharmaceutical, food, biotech industries have definite requirements of microbiologists as a part of regulatory compliances. Hence, there lies a constant need of microbiologists at various industries.
  • Entrepreneurship: The present generation of students have found a suitable solution to the problem of unemployment by the creation of start-up employing their domain knowledge or interest. Several innovative ideas in the form of product or service has led to the development of enterprise making the students ‘job creators rather than job seekers’. Microbiology has enough scope of developing products related to medical, agricultural and also of inter-disciplinary nature that can be nurtured in the incubation facility in creating a start-up. The Govt. is constantly encouraging such activities with various financial and regulatory support through creation of proper start-up ecosystem at the higher educational institutions.

Thus, Microbiology offers enough scope of quenching thirst for knowledge, ignition towards innovation and having a successful career. However, the success highly depends on the quality of training obtained during academic tenure and perseverance.

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
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.

Data Communication Lifecycle
Data Communication Lifecycle

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 Plan to Overtake Market
5G Plan to Overtake Market

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:

  1. Correspondence among sensors and robots
  2. Trades across different robots for coordination of attempts
  3. 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.

 

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