Computer Engineering Career Outlook and Salary

Just like their educational background, the job market for Computer Engineers is very broad. Rewarding careers are found in many areas. Robotic manufacturing, security equipment, medical diagnostic devices and personal electronics virtually all have some sort of computer in them.

The breadth of this industry means there are many opportunities to expand your skills as well as move up in responsibility and compensation.

Salary

According to the U.S. Bureau of Labor Statistics, Computer Hardware Engineers make a median annual salary of $98,610. Jobs in Computer Engineering are, like many other high-paying careers, most available in the Northeast and Southwest. Jobs in Computer Engineering are expected increase by 9% annually. The job market is expanding, and average salaries in the field are respectable.

Studying Computer Engineering can lead to a very rewarding career at the cutting edge of technology. Since virtually every modern device you own has some form of microprocessor in it, there is a growing need for Computer Engineers to design and integrate them. The job market is expanding, and average salaries in the field are respectable.

If you love math and science and want to be a part of the growing technology world, look into one of the many available Computer Engineering college degrees and get started in a rewarding career.

There are many professional associations that Computer Engineers can join in order to enhance their interaction with fellow professionals. Probably the largest and most prestigious is the Association for Computing Machinery (ACM). The ACM claims to have more than 100,000 members as of 2011.

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What Do Computer Network Architects

What Do Computer Network Architects

Computer Network Architects Design and implement computer and information networks, such as local area networks (LAN), wide area networks (WAN), intranets, extranets, and other data communications networks. Perform network modeling, analysis, and planning. May also design network and computer security measures. May research and recommend network and data communications hardware and software. They also develop or recommend network security measures, such as firewalls, network security audits, or automated security probes.

Other tasks include:

• Develop disaster recovery plans.
• Monitor and analyze network performance and reports on data input or output to detect problems, identify inefficient use of computer resources, or perform capacity planning.
• Coordinate network or design activities with designers of associated networks.
• Maintain networks by performing activities such as file addition, deletion, or backup.
• Develop conceptual, logical, or physical network designs.
• Develop and implement solutions for network problems.

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Important Internet of Things Components

Important Internet of Things Components

Many people mistakenly think of IoT as an independent technology. Interestingly the internet of things is being enabled by the presence of other independent technologies that make fundamental components of IoT.

The fundamental components that make the internet of things a reality are:

• Hardware-Making physical objects responsive and giving them the capability to retrieve data and respond to instructions

• Software-Enabling the data collection, storage, processing, manipulating and instructing

• Communication Infrastructure-Most important of all is the communication infrastructure which consists of protocols and technologies which enable two physical objects to exchange data

As the telecommunication sector is becoming more extensive and efficient, broadband internet is widely available. With technological advancement, it is now much cheaper to produce necessary sensors with built-in wifi capabilities making connecting devices less costly.

Most importantly, smartphone usage has surpassed all the predicted limits and the telecommunication sector is already working on its toes to keep their customers satisfied by improving their infrastructure. As IoT devices need no separate communication than the existing one building IoT tech is very cheap and highly achievable.

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Career information for Transportation Engineers

Career information for Transportation Engineers

The Institute of Transportation (ITE), American Society of Highway Engineers (ASHE) , and the American Association of State Highway and Transportation Officials (AASHTO) have dedicated their efforts to advancing the education of practitioners in the field. They work to promote awareness to the field as well as providing insight into best practices and industry trends. A library of publications, research findings and support organizations are available through the associations. Leading firms have made use of these channels when seeking to fulfill vacancies in their companies. In addition, mentoring networks are available to provide assistance for prospective candidates. According to research from the U.S. Bureau of Labor Statistics (BLS), the field is expected to continue to experience robust job growth of 20 percent into the year 2020. The most bountiful opportunities are in the states California, Texas, New York, and Illinois. While exact statistics on the median salary of these professionals is unavailable, O*Net reports that professionals in this industry earn a yearly salary of $80,770.

A Real-life Example of a Transport Engineer Career
Based on the experience of several young practitioners in the profession, the field of transport engineering offers a rich professional experience. Scott Sorensen , an engineer from the University of Nebraska, developed an after school education program to teach principles of engineering to high school students, whereby they designed buildings and created electrical applications for Christmas lights. Matthew Arnold, an engineer from Kansas State University, finds the hands on nature of the field most engaging. He thrives performing outdoors, enabling him the experience the vitality absent working in an office. Both Sorensen and Arnold enjoy the state-of-the-art technology they employ on a daily basis such as self-driving vehicles. New challenges encountered have made the field particularly rewarding for Tomas Lindheimer, an engineer from the University of Kansas. He enjoys the broad concepts and intellectual curiosity the industry demands. He believes he’s constantly learning new concepts that compel him to rethink his preconceived notions.

The direct impact the field has on people’s lives serves as the most attractive part of the profession for these young professionals. Instead of sitting in an office, detached from their fellow man, these engineers see the influence their work has on the daily lives of the people they serve. Many professors and industry executives encourage aspiring students and candidates to carefully consider the impact their work has on society as a whole. It is one of a few industries where practitioners see first-hand the results their technical backgrounds have on the ways people experience their daily lives.

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Structural Engineer Work Nature

Structural Engineer Work Nature

Organizations such as Structural Engineers Association, the Structural Engineering Institute, and the International Association for Bridge and Structural Engineering (IABSE) are a few of the organizations dedicated to fostering the development of professionals in the field. They organized congresses throughout the world to educate and bring together professionals in the industry to trade knowledge and share opportunities and best practices, thereby expanding the breadth and awareness around the industry. Moreover, they feature digital libraries of materials, including journal publications and links to online resources that enhance the toolbox of practitioners. Affiliated organizations like the

John Shmerykowsky , an experienced structural engineer, has witnessed first-hand the rewards of the career as well as the technological transformations that are reshaping the industry. As a principal of his own firm, he spearheaded the work completed at the Phillip Morris building in New York City at 120 Park Avenue. He works primarily as a consultant to architects, while he completed his education at Fountainbleu in Paris. Shmerykowsky has developed his reputation by completing projects that feature unique challenges. For example, the Phillip Morris project possessed a structure that was one quarter positioned over functioning subway tracks that were employed to transport garbage. His team had to develop an approach that would enable them to complete work on the building, while enabling the tracks to run without interruption. He also developed sustainable features in the building including windows conducive to harnessing natural light. Over time, he has seen how vital digital applications have become to the industry, whereby he encourages all aspiring professionals to become comfortable with the technology as well as current ones to reman vigilant in keeping current on computer-based trends. His firm Shmerykowsky Consulting Engineers currently seeks structural engineers to add to their team to help realize current projects for their portfolio of clients. Like the company’s founder, the firm seeks engineering professionals that possess a diverse range of technical, business, interpersonal and communication skills that are tantamount to executing current and future structures throughout the world.

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Mechatronics Enganeering

Mechatronics Enganeering 

Mechatronic engineers require at least a Bachelor’s degree, whereby most of these professionals have completed undergraduate studies in mechanical engineering. The field, though, transcends this traditional discipline into a variety of fields of study such as electronics, decision-making theories, and information technology, among others. With a Master’s degree in mechatronic engineering, an individual has the credentials to assume management and more advanced research posts. Graduate programs often feature traditional classroom instruction with practical industry experience. Coursework traditionally explore practices in automation theory, methodology, and analysis. An example mechatronic engineering class at the Massachusetts Institute of Technology (MIT), for example, instructs the design of mechatronic systems which integrate mechanical, electrical, and control systems engineering. For those seeking a less rigorous option of entering the field, an associate's degree in mechatronics can be attained at a community college or technical institution. These 2-year degree programs equip candidates with the skills to assume entry-level positions, whereby they troubleshoot maintenance processes. Classroom instruction typically entails course work in robotic design as well as training in engineering drawing.
Students of mechatronics have gone on to develop many of the “smart” devices that have transformed a medley of industries around the world. From robots and anti-lock brakes to photocopiers and computer drives, mechatronics professionals are changing the way people work and live, according to the American Society of Mechanical Engineers (ASME). The technology is also found in humidity sensitive clothes dryers and windshield wipers as well as in healthcare, agriculture, construction, entertainment, automobiles, and tools for the disabled and elderly communities. These technological innovations reflect the dedication these professionals have to becoming life-long learners. With a bevy of associations, professional organizations, societies and resources likes the American Society for Engineering Education (ASEE), the Technology Student Association (TSA), and the National Society of Professional Engineers (NSPE), among others, students and seasoned professionals have seamless access to the knowledge and resources necessary to bolster their education and skills as the industry evolves over time. Organizations such as these also provide mentoring and networking opportunities that have the potential to enhance the prowess of an individual seeking transformative career opportunities and guidance as well as for institutions seeking to attract and nurture talent to their efforts. In addition, esteemed institutions such as MIT offer free online course programs for students and professionals through its Open Course Ware initiative.

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Materials Science Engineering Degree Requirements

Materials Science Engineering Degree Requirements

Educational requirements throughout given industries range from four years Bachelor’s degrees to more advanced Masters and Doctorates. Companies and institutions looking to employ Material Science Engineers typically look for a minimum of a Bachelor’s degree, though in a few, very rare instances, mixes of formal education and practical working experience can be acceptable for some entry-level positions, in lieu of a formal degree. As Material Science Engineering is considered an “interdisciplinary science,” and covers a broad range of applied physical sciences, specific focuses of study can weigh heavily on available career options after schooling.

Ranging from thermodynamics, chemical and biochemical research, synthetic materials creation and testing and even forensic engineering and investigation, it is often advisable for students entering the field of Material Science Engineering, to fully investigate potential and desired career goals while going through their studies, so as to ensure the appropriate skills and education are attained in pursuit of their end goals. For example, should a student with a strong focus on thermodynamics and mineral-based composite materials enter the fields of blast furnace design or rocketry, their skills, and education may not be as well suited for bio-medical or bio-mechanical design as one with a stronger focus in bio-mechanics or biochemistry? As such, within such a diverse field as Material Science and Engineering, it can be helpful to fully explore available career options either before enrolling in a degree program and while entering the introductory level courses of such, so as to adequately define one’s focus of study going forward.

In general, as a broadly applicable field of study with many avenues open to graduates and post-graduates throughout numerous professional sectors, Material Science and Engineering maintains a respectable average salary in terms of national averages. The US Bureau of Labor Statistics (BLS) reports that in 2012, the mean salary for a Materials Engineer was $85,150 annually. In comparison, Onet.com reported a rise in this for 2013 with a reported mean salary of $87,330 per year, with these totals naturally varying between industries and according to educational and experiential backgrounds. Job growth in this particular sector is reported to be effectively flat between 2012 and 2022, according to the BLS, experiencing neither substantial losses nor gains in term of total net employment.

However within the state of California alone, numerous opportunities can be found consistently in the areas of aerospace and defense, medical device design and manufacturing, applied physics research and development (both commercial and academic,) as well as in general consumer products and electronics manufacturing. Additional opportunities in the energy, automotive and information technology sectors can also be found throughout the country and are themselves possessing of growth potential as each of these industries continues to evolve rapidly in light of technological advances.

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Computer Engineering Education

Computer Engineering Education

Computer Engineering degrees are available at all education levels: undergraduate, master’s and doctorate (PhD). Most undergraduate Computer Engineering programs allow you to specialize along one of several tracks because the entire career field is simply too broad to cover in an undergraduate program.

As you progress in your Computer Engineering career, you’ll be able to study increasingly complex topics in hardware and software systems. Occupying the top tier of Computer Engineering jobs are professionals with vast experience designing the overall system to control things like a passenger airliner, the International Space Station, or a nuclear power plant.

Computer Engineering requires a combination of skills from other engineering disciplines, and most colleges will require the same courses as prerequisites for their degrees. You’ll likely study mathematics up through Calculus, basic software programming, physics and electronic or electrical engineering basics.

Once your prerequisite courses are completed, you start the heart of the curriculum in Computer Engineering. In your upper level courses, you’ll learn how computer-controlled systems are designed from the bottom up. Microprocessor design, firmware creation and circuit boards are just a few of the topics you’ll study. The creation of a single computer is just the beginning. Advanced courses in Computer Engineering teach the techniques for integrating large numbers of computers into complex networks capable of solving massive computational problems.

There are many delivery methods for studying Computer Engineering. There are over 150 universities that offer an undergraduate program, and most top-tier state and private colleges offer Master’s and PhD programs also. You might also pursue a Computer Engineering degree with any of the reputable online colleges.

An undergraduate Computer Engineering degree typically takes four to five years to complete. A Computer Engineering Master’s Degree will normally be completed in two years on a full-time basis, and a doctorate can easily take three years to complete.

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Agricultural Engineering Degrees

Agricultural engineering degrees prepare students to work professionally in the many fields of agriculture. Subsets of the studies belonging to the classification of agriculture offer unlimited opportunities for involvement in this field. Demand for Agricultural Engineers has grown over the last 10 years.

Degrees in agricultural engineering cover all aspects of the industry, from water and waste issues, massive farming of foods and livestock, water farming, farming equipment, and farm economics to genetically designed corn and cows.

Earning a degree gives students textbook knowledge and hands-on vision of their chosen field. Fieldwork and laboratory projects combined with actual practice provide a well-rounded education.

The bachelor of science is the first degree to obtain. While majoring in agricultural engineering, a student can minor is any other field. Often students will minor in a related subject such as economics, to enhance their food engineering major, for example.

Graduate students are eligible to pursue a number of advanced degrees, including the Master of Science, Master of Engineering, Master of Agriculture, Doctor of Philosophy and Doctor of Engineering. These students can major in bioacoustics, biomaterials science, bioprocess engineering, environmental and natural resource engineering, food engineering; food, feed and fiber processing; machine and energy systems; and systems analysis.

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Client-Server Model

Two remote application processes can communicate mainly in two different fashions:

• Peer-to-peer: Both remote processes are executing at same level and they exchange data using some shared resource.
• Client-Server: One remote process acts as a Client and requests some resource from another application process acting as Server.

In client-server model, any process can act as Server or Client. It is not the type of machine, size of the machine, or its computing power which makes it server; it is the ability of serving request that makes a machine a server.

A system can act as Server and Client simultaneously. That is, one process is acting as Server and another is acting as a client. This may also happen that both client and server processes reside on the same machine.

Sockets

In this paradigm, the process acting as Server opens a socket using a well-known (or known by client) port and waits until some client request comes. The second process acting as a Client also opens a socket but instead of waiting for an incoming request, the client processes ‘requests first’.

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How to Become a Network Architect

How to Become a Network Architect

If you want to become a network architect, you first need to determine if this career path is a good fit for you. If the following description sounds like you, then you’re probably well suited for a career as a network architect:

• Do you enjoy work that involves large amounts of heavy thinking?

• Are you able to develop conceptual, logical, and physical network designs?

• Do you enjoy matching possible business solutions to business problems?

• Do you enjoy working with other information technology professionals?

Those who become network architects are typically individuals with a natural aptitude in mathematics and information technology. They also tend to have skills in designing, building, or operating equipment configuration prototypes, including network hardware, software, servers, or server operation systems.

Those who become network architects are also typically individuals with excellent communication and interpersonal skills. They enjoy the prospect of a career that allows them to leverage their mathematical, IT and problem solving skills to provide with a competitive edge to their employer by creating real-world technical solutions for reducing inefficiency.

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Automotive Engineering Degrees

Automotive engineering is a branch of mechanical engineering that concerns the design, development and manufacture of cars, trucks, motorcycles and other motor vehicles. Automotive engineers also design and test the many subsystems or components that comprise a motorized vehicle.

Very few universities offer a bachelor's degree in automotive engineering. Consequently, many prospective automotive engineers earn a bachelor's degree in mechanical engineering from a university that also offers specialized courses in automotive engineering. However, there are plenty of universities offer master's degrees in automotive engineering.

High school students aspiring to become automotive engineers should develop a solid foundation in algebra, geometry, trigonometry and pre-calculus, physics and chemistry. These subjects are central to understanding the core concepts of any engineering discipline. Automotive engineering students need effective oral and written communications skills. Therefore, high school students should strive to do well in language arts classes, such as writing and speech. High school students should take available advanced placement or college classes to help prepare them for university engineering coursework and get a head start on building college credits.

Engineering students should choose a college or university that is recognized by the Accreditation Board for Engineering and Technology (ABET). In evaluating an automotive engineer job applicant, some employers consider the reputation of the engineering school that the undergraduate attended more than any other factor. However, most employers focus more on the undergraduate's grades and amount of his or her hands-on experience. Consequently, any college or university that promotes national design and racing competitions in which the student gains hands-on experience would be a good choice. Students should also look for internships or other opportunities that will force them to apply coursework to real-life situations. Over time, the school will not be as important as the experience and skills the engineering the undergraduate offers.

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Aerospace Engineering Degrees

Aerospace engineers research, analyze, design, synthesize, develop and test aircraft, spacecraft, and weapons. Aerospace engineers who focus on aircraft are called aeronautical engineers; those who concentrate on spacecraft are called astronautical engineers.

They are essentially concerned with the aerodynamic properties of flight vehicles, such as airfoil, control surfaces, lift and drag.

Aerospace engineers can specialize in areas such as structural design, propulsion, navigation, guidance and control systems, communications or defense systems.

They may also specialize in a particular type of equipment, including commercial and military planes and jets, helicopters, space shuttles, satellites, space vehicles, missiles or combat aerial vehicles.

Aerospace engineers can develop special expertise in aerodynamics, thermodynamics, celestial mechanics, propulsion, acoustics, avionics or guidance, and control systems.

Prospective engineering students should take as many classes as possible in algebra, geometry, trigonometry and pre-calculus, physics and chemistry because these subjects are critical to understanding the core concepts of aerospace engineering. Because engineers also need effective and written communication skills, students should not overlook language arts classes, such as writing and speech.

Young aerospace engineering graduates have said that they took many Advanced Placement or college classes as in high school to prepare for university engineering coursework.

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Internet of Things Companies

Internet of Things Companies

The extension of internet connectivity into physical devices and everyday objects—better known as the internet of things—has become a critical aspect in many industries. The Internet of things companies are in high demand, but the best ones are notoriously difficult to identify. If you’re looking for an IoT partner to help you serve your customers better, we have just the thing for you!

We’ve gone through a long list of the most capable and experienced companies working in IoT today and ranked the very best based on a rigorous set of criteria. The majority of these companies have a local US office, and in every case, they’ve worked with US clients. The final ranking below is a curated list of the best of the best.

We’re known for our stringent criteria when it comes to ranking technology companies from any domain. It was no different in this case. After compiling a long list of the most well-known companies specializing in IoT, we carefully went through each company’s services and portfolio to ensure that only the very best passed muster. Below you’ll find the detailed set of factors we used to evaluate these companies.

The top IoT development companies should have programmers with expertise in general-purpose and embedded-specific languages. This gives them an edge over teams that only excel in data analytics. We check the extent of the agency’s proficiency in the following languages.

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Definition of the Internet of Things

Definition of the Internet of Things (IoT)

The Internet of Things (iot) is transforming every corner of life: the home, the office, city streets and beyond. products give us greater control over door locks, lights and appliances; offer insights into resource consumption habits; streamline business processes; and better connect us to the people, systems and environments that shape our daily lives. Whether you’re a homeowner looking for the best products to start building your connected life, or a business leader looking to take your company to the next level — this is the place to begin. We’ve collected the best and most popular options the has to offer, from smart home devices to enterprise platforms to the software and tools you need to build your own smart, connected products.

We as a whole realize that IoT  is changing ventures in all cases – from agribusiness to human services to assembling and everything in the middle of – yet what is , precisely? Working for an Internet of Things (IoT ) organization, I get posed that inquiry constantly and, over that time, I've endeavored to come it down to something anybody can comprehend. Here's all that you have to think about the web of things.

An IoT ecosystem consists of web-enabled smart devices that use embedded systems, such as processors, sensors and communication hardware, to collect, send and act on data they acquire from their environments. IoT devices share the sensor data they collect by connecting to an IoT gateway or other edge device where data is either sent to the cloud to be analyzed or analyzed locally. Sometimes, these devices communicate with other related devices and act on the information they get from one another. The devices do most of the work without human intervention, although people can interact with the devices -- for instance, to set them up, give them instructions or access the data.

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IoT for Manufacturing

IoT for Manufacturing

Industrial IoT (IoT) exists today and is used by manufacturing companies like General Electric (GE). Mostly consisting of network-connected sensors, IIoT is used for quality assurance (QA) of manufactured parts and monitoring the health of the machines making the parts. Though it is still in its early stages, there is great potential to reduce human error in the QA process. By monitoring machine health, repairs and replacement can be done at times more specific to the machine’s needs. 

Monitoring especially produces an amount of data that requires advanced analytics software and professional data scientists to make it actionable. Another challenge around IIoT is the lack of an industry-wide standard for communication protocols between machines and between machines and sensors. Read more on IIoT in this SDxCentral definitional article.

The internet of things (IoT) is a computing concept that describes the idea of everyday physical objects being connected to the internet and being able to identify themselves to other devices. The term is closely identified with RFID as the method of communication, although it also may include other sensor technologies, wireless technologies or QR codes.

The IoT is significant because an object that can represent itself digitally becomes something greater than the object by itself. No longer does the object relate just to its user, but it is now connected to surrounding objects and database data.

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Internet of Things Applications

The Internet of Things (iot) is transforming every corner of life: the home, the office, city streets and beyond. IoT products give us greater control over door locks, lights and appliances; offer insights into resource consumption habits; streamline business processes; and better connect us to the people, systems and environments that shape our daily lives. Whether you’re a homeowner looking for the best products to start building your connected life, or a business leader looking to take your company to the next level — this is the place to begin. We’ve collected the best and most popular options the IoT has to offer, from smart home devices to enterprise platforms to the software and tools you need to build your own smart, connected products.


We as a whole realize that IoT is changing ventures in all cases – from agribusiness to human services to assembling and everything in the middle of – yet what is IoT, precisely? Working for an Internet of Things (IoT) organization, I get posed that inquiry constantly and, over that time, I've endeavored to come it down to something anybody can comprehend. Here's all that you have to think about the web of things.

In the event that you recently read that and thought, "alright… what?", you're not the only one. The vast majority neither need nor to need to plunge into the bare essential of IoT. So right now, furnish you with a straightforward clarification of the Internet of Things and how it might affect you. This can likewise fill in as an asset to impart to other people who need a prologue to IoT (like companions, relatives, or clients).

Before we bounce in, note that "The Internet of Things" and "IoT" can and will be utilized conversely. What's more, a fast tip: abstain from saying "the IoT."
How are you perusing this post at the present time? It may be on work area, on portable, possibly a tablet, however whatever gadget you're utilizing, it's undoubtedly associated with the web.

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