EEE ( Electrical and Electronics Engineering )

Electrical and Electronic Engineering (EEE) is one of the oldest and traditional engineering subjects. Indeed, the demand and importance of the EEE students is not necessary to mention. If the world standstill without the electricity, so also without the EEE.

What was your favorite subject in HSC? Math or Physics, if you have the answer you should not have the fear about EEE. Here, you would certainly be able to adapt easily.

If you want the fun of Equation solving, if you do not to feel unbearable about the electricity chapters of physics second paper, then EEE will not disappointing you. You feel the fun about to work with Circuits? Then EEE is for you.

If you have the innovative capacity, and desire to have a follow-up, however, then you will be able to show something much bigger. Electrical and Electronic Engineering is the perfect place to show the engineering invention dramatically.

See the sub-disciplines of EEE:
1. Power
2. Electronics
3. Telecommunication
4. Computer

Power sector is seems to be responsible for electricity generating and supply. The demand of this sector at this moment is huge in the context of Bangladesh. New power plants being built every year for the demand. Plans are underway at the high level of the government to establish a nuclear power plant in the future. And the Electrical engineers have all the responsibilities of this sector. Those who want to see yourself as a Power Management engineer, you should take EEE.

Everybody knows something about Electronics. Resistor, Capacitor, Inductor - you've heard these names. The devices you see at the present days, most of them are designed with integrated circuits. Smartphone, iPad, Notepad, Laptop – all of these are the offering of electronics. Maybe someone was hear Microcontroller's name. Who desires extensive studies about the Robotics; Microcontroller is the very early stages of them. Those who want to see yourself as an Electronics engineer, you should take EEE.

Telecommunication is the practice of communication. Mobile phone companies have the huge demand for EEE engineers a few years ago. Like our country to setup new network, tower, coverage with the management of the entire system; there are a huge number of EEE engineers are controlling those. Those who want to see yourself as an established Telecommunication engineer; the EEE is of course for you.

Computer is actually a thing that cannot be separated from anything. A lot of examples are available being the Software Engineer after completed the EEE course. If you have better understand the programming, have the better skills in computer, then you can easily be diverted to the CSE side from EEE.

EEE is an Everlasting Subject. The demand of EEE will not be reduced as long as the earth will survive. Your honor will be everywhere in the country and abroad. If you have the qualifications and merit, then you have not sitting a day after EEE graduation. You will be able to catch your deserving positions.

Electrical and Electronic Engineering (EEE) is one of the oldest and traditional engineering subjects. Indeed, the demand and importance of the EEE students is not necessary to mention. If the world standstill without the electricity, so also without the EEE.

What was your favorite subject in HSC? Math or Physics, if you have the answer you should not have the fear about EEE. Here, you would certainly be able to adapt easily.

If you want the fun of Equation solving, if you do not to feel unbearable about the electricity chapters of physics second paper, then EEE will not disappointing you. You feel the fun about to work with Circuits? Then EEE is for you. - See more at: http://www.eduicon.com/Feature/Details/345.html#sthash.Szv6COAr.dpuf

If you have the innovative capacity, and desire to have a follow-up, however, then you will be able to show something much bigger. Electrical and Electronic Engineering is the perfect place to show the engineering invention dramatically.

See the sub-disciplines of EEE:
1. Power
2. Electronics
3. Telecommunication
4. Computer

Power sector is seems to be responsible for electricity generating and supply. The demand of this sector at this moment is huge in the context of Bangladesh. New power plants being built every year for the demand. Plans are underway at the high level of the government to establish a nuclear power plant in the future. And the Electrical engineers have all the responsibilities of this sector. Those who want to see yourself as a Power Management engineer, you should take EEE.

Everybody knows something about Electronics. Resistor, Capacitor, Inductor - you've heard these names. The devices you see at the present days, most of them are designed with integrated circuits. Smartphone, iPad, Notepad, Laptop – all of these are the offering of electronics. Maybe someone was hear Microcontroller's name. Who desires extensive studies about the Robotics; Microcontroller is the very early stages of them. Those who want to see yourself as an Electronics engineer, you should take EEE.

Telecommunication is the practice of communication. Mobile phone companies have the huge demand for EEE engineers a few years ago. Like our country to setup new network, tower, coverage with the management of the entire system; there are a huge number of EEE engineers are controlling those. Those who want to see yourself as an established Telecommunication engineer; the EEE is of course for you.

Computer is actually a thing that cannot be separated from anything. A lot of examples are available being the Software Engineer after completed the EEE course. If you have better understand the programming, have the better skills in computer, then you can easily be diverted to the CSE side from EEE.

EEE is an Everlasting Subject. The demand of EEE will not be reduced as long as the earth will survive. Your honor will be everywhere in the country and abroad. If you have the qualifications and merit, then you have not sitting a day after EEE graduation. You will be able to catch your deserving positions. - See more at: http://www.eduicon.com/Feature/Details/345.html#sthash.Szv6COAr.dpuf

If you have the innovative capacity, and desire to have a follow-up, however, then you will be able to show something much bigger. Electrical and Electronic Engineering is the perfect place to show the engineering invention dramatically.

See the sub-disciplines of EEE:
1. Power
2. Electronics
3. Telecommunication
4. Computer

Power sector is seems to be responsible for electricity generating and supply. The demand of this sector at this moment is huge in the context of Bangladesh. New power plants being built every year for the demand. Plans are underway at the high level of the government to establish a nuclear power plant in the future. And the Electrical engineers have all the responsibilities of this sector. Those who want to see yourself as a Power Management engineer, you should take EEE.

Everybody knows something about Electronics. Resistor, Capacitor, Inductor - you've heard these names. The devices you see at the present days, most of them are designed with integrated circuits. Smartphone, iPad, Notepad, Laptop – all of these are the offering of electronics. Maybe someone was hear Microcontroller's name. Who desires extensive studies about the Robotics; Microcontroller is the very early stages of them. Those who want to see yourself as an Electronics engineer, you should take EEE.

Telecommunication is the practice of communication. Mobile phone companies have the huge demand for EEE engineers a few years ago. Like our country to setup new network, tower, coverage with the management of the entire system; there are a huge number of EEE engineers are controlling those. Those who want to see yourself as an established Telecommunication engineer; the EEE is of course for you.

Computer is actually a thing that cannot be separated from anything. A lot of examples are available being the Software Engineer after completed the EEE course. If you have better understand the programming, have the better skills in computer, then you can easily be diverted to the CSE side from EEE.

EEE is an Everlasting Subject. The demand of EEE will not be reduced as long as the earth will survive. Your honor will be everywhere in the country and abroad. If you have the qualifications and merit, then you have not sitting a day after EEE graduation. You will be able to catch your deserving positions. - See more at: http://www.eduicon.com/Feature/Details/345.html#sthash.Szv6COAr.dpuf

If you have the innovative capacity, and desire to have a follow-up, however, then you will be able to show something much bigger. Electrical and Electronic Engineering is the perfect place to show the engineering invention dramatically.

See the sub-disciplines of EEE:
1. Power
2. Electronics
3. Telecommunication
4. Computer

Power sector is seems to be responsible for electricity generating and supply. The demand of this sector at this moment is huge in the context of Bangladesh. New power plants being built every year for the demand. Plans are underway at the high level of the government to establish a nuclear power plant in the future. And the Electrical engineers have all the responsibilities of this sector. Those who want to see yourself as a Power Management engineer, you should take EEE.

Everybody knows something about Electronics. Resistor, Capacitor, Inductor - you've heard these names. The devices you see at the present days, most of them are designed with integrated circuits. Smartphone, iPad, Notepad, Laptop – all of these are the offering of electronics. Maybe someone was hear Microcontroller's name. Who desires extensive studies about the Robotics; Microcontroller is the very early stages of them. Those who want to see yourself as an Electronics engineer, you should take EEE.

Telecommunication is the practice of communication. Mobile phone companies have the huge demand for EEE engineers a few years ago. Like our country to setup new network, tower, coverage with the management of the entire system; there are a huge number of EEE engineers are controlling those. Those who want to see yourself as an established Telecommunication engineer; the EEE is of course for you.

Computer is actually a thing that cannot be separated from anything. A lot of examples are available being the Software Engineer after completed the EEE course. If you have better understand the programming, have the better skills in computer, then you can easily be diverted to the CSE side from EEE.

EEE is an Everlasting Subject. The demand of EEE will not be reduced as long as the earth will survive. Your honor will be everywhere in the country and abroad. If you have the qualifications and merit, then you have not sitting a day after EEE graduation. You will be able to catch your deserving positions. - See more at: http://www.eduicon.com/Feature/Details/345.html#sthash.Szv6COAr.dpuf

Textile engineering

Textile engineering, also known as textile technology, is the study of various principles form engineering and scientific methodologies. These principles are then implemented for the processing and production of all kinds of textile fabric and yarns from textile fibers. The disciple involves extensive study of chemical and physical principles, which is then utilized for the detailed study and analysis of the behavior of polymers involved in the formation of textile fiber.
This field is part of the larger textile industry that is also referred to as "rag trade" in Australia and England. Other than textile engineering, the working mechanics of this industry involve design, manufacture, distribution, and sales of clothing and apparels. The textile industry developed and progressed in Britain during the Industrial Revolution of 18th century, and from there spread to Germany and then America. More advanced technologies in these countries led to the development and innovation of textile industry on more advanced scientific principles.
Textile engineering is an innovative field as it is a scientific realm. It involves the creative research, study, and exploration of new techniques for production and improvisation. Textile manufacturers not only seek to develop and find new techniques for the production of new fabrics of better quality, but they also constantly work on improving existing textile fibers.


 The same components  that once went into making your jacket are now helping to provide arteries and aortic heart valves.  Carbon fibre and Polyester, braided together, are providing the same properties as human ligament. 

     Other sectors that are drastically reshaping the industry are geotextiles, involved in engineering projects like reinforcing embankments, and protective clothing, providing suits that block heat and radiation, give stab protection and make bulletproof vests.

      According to global manufacturing statistics, production of technical textiles is now growing at four percent a year, while home and clothing textiles is growing at one percent.

      It’s a trend that’s well noted by the National Institute of Textile Training Research and Design, known as NITTRAD, in Bangladesh.  It now includes the teaching of technical textiles as part of its BSc course in textile engineering, at its campus in Savar, near Dhaka.

     The institute has been undergoing a transformation of its own since the operation was handed over by the government to the Bangladesh Textile Mills Association in 2009 as a public-private partnership.  The reborn institute, now privately managed, is much better equipped, with the latest high-tech training installations. 

     Help has come from the Better Work and Standards programme of the United Nations Industrial Development Organisation, BEST, funded by the European Union and the Norwegian development agency, Norad.  As well as providing equipment for the campus, the programme has been particularly useful in providing international expertise, in the form of tutors and other professionals, and arranging foreign visits for staff.

      The principal of NITTRAD, Dr Ayub Nabi Khan, has high ambitions for his new dynamic institute, but faces a daunting task in supplying a market so hungry for textile talent.

     “The government has given priority to private enterprise, and this place has become a role model for education, research and training in the textile industry. The problem is we have a huge manpower shortage,“ said Dr Khan.

      There are currently 15 universities in Bangladesh with textile departments, and they will double the number of graduates to 6,000 a year within the next three years.  Over the same period, the projected need for graduates will reach 65,000.  The gap will have to be filled with expensive foreign engineers, so anybody leaving NITTRAD or any of the other training institutions is guaranteed a good job.

      Dr Khan is well aware of this challenge facing the country’s textile industry but can see great progress being shown by NITTRAD and is excited by the enormous potential.  “We hope to become the biggest exporter of garments in the world,” he said.

      For the country to get the most from its overall textile potential it will need to keep up with modern trends such as technical textiles.  For this it has the help of one of the leading scientists in the field, Professor Subhash Anand from the University of Bolton in the UK, who lectures at NITTRAD as part of the UNIDO support programme.

      “Although at the moment Bangladesh is producing basic textiles, I think in time as education and awareness increases they will be able to produce these kind of products which are now being made in Europe,” he said.

      The Bangladeshi textile industry has long had to work to the patterns sent to it from abroad but now it is designing an ambitious one of its own, all about its own future.

IPE ( industrial production engineering )

Industrial engineering is a branch of engineering that concerns the development, improvement, implementation and evaluation of integrated systems of people, money, knowledge, information, equipment, energy, material and process(Wikipedia). 'Industrial and Production Engineering' or IPE is being taught right here in Bangladesh at 4 public universities, namely BUET, KUET, RUET and SUST. And within a short time more universities will initiate this subject. Still being quite a new one, it is unknown to many and this is a work for them, especially for those having interest in studying engineering. To give the readers precise information I talked with two persons: a teacher and a final year student. So, let's hear from them.  

 When asked about the history of IPE in Bangladesh he answered like this: “In developed countries like USA this subject was initiated long ago. Even in developed countries of Asia like Singapore, Malaysia, Thailand or Philippines this has been a popular subject for long. But in third world countries like ours this subject was not known. It was started in 1981 as a specialized part of Mechanical Engineering. Only M.Sc. was offered then. In 1997 it was made fully independent and separated department as B.Sc. Engineering course was initiated. The first batch was consisted of only 20 students. They passed in 2003 and since then 6 batches have been passed out.” He added by his own, “subject's name can be confusing here. It is known by different names throughout the world. Like only Industrial Engineering, Industrial Engineering and management, Production and Manufacturing Engineering, Industrial and Production Engineering, Operations Management or even Managerial Science. But actual contents under all these names are very much similar.” As the meeting went on we came to the important question: 'What's the purpose of IPE?' Some interesting speculations came out from Mr. Hasin: “Think about a machine. A machine is hardware to a Mechanical Engineer, just like a human body is a combination of organs to a Doctor. From the point of view of an Economist it's a financial asset which belongs to either profit or loss.” He continues, “But for an IP Engineer it's a production resource. Like that a man or woman is a human resource to him or her. He or she should have a plan how to manage and run a machine. The target is optimum production or in other words we can say it as maximum output. It's been a problem for our country that we are not being able to produce maximum possible products in spite of having adequate equipments. So it's clear that we are lacking in managerial skill. IP Engineers are now filling this gap.” The next topic was the job fields. A happy but firm answer came: “Any kind of production industry is suitable for IP Engineers. An industry can be based on Chemical Engineering, Electronics Engineering, Computer Engineering or other fields of engineering. But for every kind IP Engineers are necessary. IP Engineers are needed for service organizations also. It may seem that I'm joking but the fact is even hospitals require IP Engineers for management. Personally I have consultancy experiences at Red Crescent, Merry Stopes and 'Paribar Parikalpana Samity Hospital's. It's not been a usual scene in our country but in countries like USA it's a regular practice.” Talking about the demand in abroad he said, “Any developed country means the country is industrially developed.

So demand in any developed country is abundant to be true.” When asked about the employment opportunities he answered happily, “So far we have got 100% employment record, means graduates have got jobs based on their subject. There should be no worries about employment in near future. But to retain the employment rate intact after that we have to create more field or post for IPE. It's true that until now this subject is not known to all employers. The jobs of IPE had been done by graduates of other subjects in past. We have to change this scenario and we are doing our best to do it. We can say that we are successful enough so far.”

Subject Review: IT ( information technology ) review

Subject Review: IT ( information technology ) review: IT ( information technology ) Information technology is a part of Computer Engineering . Here we can learn about software technology ....

ME ( Mechanical Engineering ) review

ME ( Mechanical Engineering ) :

Mechanical engineering is one of the broadest engineering disciplines. Mechanical engineers research, design, develop, build, and test mechanical and thermal devices, including tools, engines, and machines.

Mechanical engineers typically do the following:

• 
  
  

  Analyze problems to see how mechanical and thermal devices might help solve the problem

• Design or redesign mechanical and thermal devices using analysis and computer-aided design

• Develop and test prototypes of devices they design

• Analyze the test results and change the design as needed

• Oversee the manufacturing process for the device

Mechanical engineers design and oversee the manufacturing of many products ranging from medical devices to new batteries.
Mechanical engineers design power-producing machines such as electric generators, internal combustion engines, and steam and gas turbines as well as power-using machines, such as refrigeration and air-conditioning systems.
Mechanical engineers design other machines inside buildings, such as elevators and escalators. They also design material-handling systems, such as conveyor systems and automated transfer stations.
Like other engineers, mechanical engineers use computers extensively. Computers help mechanical engineers create and analyze designs, run simulations and test how a machine is likely to work, and generate specifications for parts.

Employment of mechanical engineers is projected to grow 5 percent from 2012 to 2022, slower than the average for all occupations. Job prospects may be best for those who stay informed regarding the most recent advances in technology. Mechanical engineers can work in many industries and on many types of projects. As a result, their growth rate will differ by the industries that employ them.
Mechanical engineers should experience faster than average growth in architectural, engineering, and related services as companies continue to contract work from these firms. Mechanical engineers will also remain involved in various manufacturing industries—specifically, transportation equipment and machinery manufacturing. They will be needed to design the next generation of vehicles and vehicle systems, such as hybrid-electric cars and clean diesel automobiles. Machinery will continue to be in demand as machines replace more expensive human labor in various industries. This phenomenon in turn should drive demand for mechanical engineers who design industrial machinery.
Mechanical engineers are projected to experience faster than average growth in oil and gas extraction because of their knowledge and skills regarding thermal energy.
Mechanical engineers often work on the newest industrial pursuits. The fields of alternative energies, remanufacturing, and nanotechnology may offer new opportunities for occupational growth. Remanufacturing—rebuilding goods for use in a second life—holds promise because it reduces the cost of waste disposal. Training in remanufacturing may become common in mechanical engineering programs at colleges and universities.
Nanotechnology, which involves manipulating matter at the tiniest levels, may affect employment for mechanical engineers because they will be needed to design production projects based on this technology. Nanotechnology will be useful in areas such as designing more powerful computer chips and in healthcare.

IT ( information technology ) review

IT ( information technology )

Information technology is a part of Computer Engineering . Here we can learn about software technology .If you want to read IT you have to have creativity hard working mind and passion abot software . There are may IT farm now in Bangladesh they are hiring IT engineer for their company .

Who complete their graduation on IT they are expert of making new software , develop them and make new games etc. There is a huge opportunity for IT engineer for establish themselves in no time .  Making new things is much exciting but you have ability and creativity .

There are 8 million IT jobs around the world today. The number of IT job postings in the cloud computing industry is growing so rapidly that there aren’t enough qualified workers available to fill the positions, according to an analysis of hiring trends by Wanted Analytic.

CSE review (Computer Science and Engineering)

CSE subject review:

CSE means computer science and engineering . This is the most demand-able subject in bangladesh.

There are many sits for CSE in many public and privet universities . But I can say varsity is not fact fort this subject . If one is very well practiced and passionate he has a bright future .

We give a small example of a big bro. He told his brother Shabir 97/98 batch . He is a Crazy man bunked classes  Night and day to made new software and dropped many the course result with bad score .. He had a lot of uncompleted  courses of his 42 tests. He got a job at Microsoft, without certificates. Sir Zafar brought him from America  and made him to complete those.. Monir once asked him that they do not say anything about  his results, certificates,? He  answered, "No. They are afraid if I leave the job."

Major work field :

1. networking 

2. programing 

3. software development 

The world has felt a the explosive impact of computers and the IT industry in its very core and the increasing need for computers in the daily life of people has made it imperative that new designs and new computer software systems be developed so that advancing technology can be applied in a growing range of applications. The work assigned to people who are called computer software engineers evolves very fast, which reflects the changes in technology as well as the increase of new specializations which keep cropping up in this field along with the preferences and practices of employers. The principles and knowledge of computer science, engineering, and mathematical analysis are employed by computer software engineers for designing, developing, testing, and evaluating the software and the systems that computers use to carry out various applications.

Software engineers who work in applications or systems development are engaged in analyzing user needs and designing, constructing, testing, and maintaining computer applications software or systems. Various kinds of software like software for operating systems and network distribution, and compilers, which convert programs for execution on a computer, are developed by a software engineer. In the programming or coding fields, software engineers give instructions to a computer, line by line; on how on perform a function or operation. These engineers are also geared to tackle technical problems and hitches. Although these engineers need to possess string programming skills, they are more occupied with the development of algorithms and in analyzing and solving problems in programming than with writing codes.