Sunday, November 29, 2020

STEPS TO BECOMING A SYSTEMS ENGINEER

  Step 1: Earn a Bachelor’s Degree in Systems Engineering (4 years)

Anyone considering a career in systems engineering (SE) should begin with an accredited bachelor’s degree in systems, industrial, or another engineering discipline (followed by SE-focused graduate study). The predominant entity which approves engineering programs is the Accreditation Board for Engineering and Technology (ABET). Though the nature of systems engineering often calls for a master’s education, a bachelor’s degree is usually enough to get graduates in the door. Some schools offer five-year combined BS/MS programs. One can choose from on-site and online degrees.

Admissions Requirements for Systems Engineering Bachelor’s Programs

The competitiveness of systems engineering programs varies from one college to the next, as do admissions requirements. The following are examples of common undergraduate SE admissions criteria drawn from real colleges. Note that online systems engineering programs may have additional requirements.
  • A high school diploma or equivalent
  • A cumulative high school GPA of at least 3.5 (varies)
  • A minimum SAT score of 1250 or ACT score of 28
  • An admissions essay, which usually addresses one’s education and career goals

Systems Engineering Course Examples

Systems engineering curricula depends on how general or specialized a program is, and even then they vary. The following examples demonstrate the types of courses systems engineering students often take.

Friday, November 27, 2020

What kind of jobs are at a data center?

 data center jobs salary

Today’s data center is an evolving engine supporting new types of workloads and users. There are new kinds of demands being placed around resource controls, facilities management, and data center optimization. Businesses are spending more money on their environments to better compete in an evolving world. https://www.fieldengineer.com/skills/data-center-technician
Cloud is a big part of that evolution. Global spending on Infrastructure-as-a-Service is expected to reach about $16.5 billion in 2015, an increase of 32.8 percent from 2014, with a compound annual growth rate from 2014 to 2019 forecast at 29.1 percent, according to Gartner.
As their approach to infrastructure changes, organizations are looking to invest in good people to support new initiatives. This means personnel needs to evolve with new demands of the market, which has created new positions, evolved others, and has forced the data center industry to invest in new talent.
Abut one third of respondents to our sister company AFCOM's latest State of the Data Center Survey, for example, said their personnel costs have increased because of new training and certification requirements. Yet, traditional data center infrastructure roles remain hard to fill.
It’s a competitive market, and it’s not always easy to find the right people. Respondents to the survey have had challenges filling the following top three roles:
  1. Data center facility technicians, engineers, and operators: 42 percent
  2. IT systems and/or applications personnel: 20 percent
  3. Network and telecommunications personnel: 19 percent

Thursday, November 26, 2020

Best paying engineer job

 Engineering Colleges have played a significant role in the upsurge of innovation. With a million students coming forward to pursue this degree, the Engineering domain has expanded manifolds. As of now, numerous programs are being offered for every vertical of work under Engineering, with different streams and Programs.

All those students who have completed their intermediate or are about to do the same, they encounter a lot of challenges in selecting the right one. With plenty of options, picking the exact one can prove to be a herculean task. So, we are here to help you while you are struggling to fish out the best possible option. Everyone looks for an institution that has an unbeatable placement record, best infrastructure, highly qualified faculty and unparalleled academic record in the region. Having a clear idea in mind on what one wants to do, surely helps in easy decision making. But if you have doubts in mind, the right advice can prove to be a great help.

Research is a part of everyday life and should be employed effectively when making bigger and important decisions. Consider all your options and then try to set your mind on the best one available. To spare you the hassle of going through reports and various pages online, we have provided the list of the best B.Tech courses in India that encompass voluminous scope, career opportunities and promise a brighter future.

Top Engineering Courses being offered by the Best Engineering Colleges in India

Before sifting out the branches with more scope and opportunities, let’s take a look at the disciplines that have gained popularity in the present times and are much sought after. According to the prospect, scope and the career opportunities tied with the engineering course, we have prepared a list of top five branches which are currently trending:

Know more about these branches and their career opportunities:

Computer Science Engineering: Computer Science is a field that subsumes the blend of electronics and software engineering. Computer Science Engineers need to have different skills such as Analytical skills, Creativity, Problem-solving skills, Critical thinking skills, communication skills, and Leadership skills.

After completing a B.Tech degree in Computer Science Engineering, candidates can get jobs in companies like Infosys, Google, HP, Dell, Samsung, Wipro, etc. The job profiles include:

  • Developers
  • Design Engineers
  • Solution Integrators
  • Software Testers
  • Domain Consultants
  • Industries Officer (Technical)
  • Software Engineer
  • System Engineers
  • Technology Analyst

Information Technology: The name suggests a lot and gives away what this branch holds. Information Technology Engineering covers the subjects and aspects of engineering such as Computer systems, IT networks, web-based applications, control systems, artificial intelligence, mobile computing, etc.

With the ever-growing and expansion of the IT industry, this discipline has gained a lot of popularity and is packed with voluminous scope as well.

Career Opportunities include:

Wednesday, November 25, 2020

The Basics of Structured Cabling

   structured cabling jobs

Structured cabling is the design and installation of a cabling system that will support multiple hardware uses and be suitable for today's needs and those of the future. With a correctly installed system, current and future requirements can be met, and hardware that is added in the future will be supported.

structured cabling system is a complete system of cabling and associated hardware, which provides a comprehensive telecommunications infrastructure. This infrastructure serves a wide range of uses, such as to provide telephone service or transmit data through a computer network. It should not be device dependent.

We further define a structured cabling system in terms of ownership. The structured cabling system begins at the point where the service provider (SP) terminates. This point is the point of demarcation (demarc) or Network Interface Device (NID).

For example, in a telephone system installation, the SP furnishes one or more service lines (per customer requirements). The SP connects the service lines at the point of demarcation.

Every structured cabling system is unique. This is due to variations in:

  • The architectural structure of the building, which houses the cabling installation;
  • The cable and connection products;
  • The function of the cabling installation;
  • The types of equipment the cabling installation will support -- present and future;
  • The configuration of an already installed system (upgrades and retrofits);
  • Customer requirements; and
  • Manufacturer warranties.

The methods we use to complete and maintain cabling installations are relatively standard. The standardization of these installations is necessary because of the need to ensure acceptable system performance from increasingly complex arrangements.

The U.S. cabling industry accepts the American National Standards Institute (ANSI), in conjunction with TIA/EIA, as the responsible organization for providing and maintaining standards and practices within the profession. It has published a series of standards to design, install, and maintain cabling installations. These help to ensure a proper cabling installation.

The benefits of these standards include:

  • Consistency of design and installation;
  • Conformance to physical and transmission line requirements;
  • A basis for examining a proposed system expansion and other changes; and
  • Uniform documentation.

The industry standard term for a network installation that serves a relatively small area (such as a structured cabling installation serving a building) is a local area network (LAN). There are also metropolitan area networks (MANs) and wide area networks (WANs).

Structured cabling installations typically include: entrance facilities; vertical and horizontal backbone pathways; vertical and horizontal backbone cables; horizontal pathways; horizontal cables; work area outlets; equipment rooms; telecommunications closets; cross-connect facilities; multi-user telecommunications outlet assemblies (MUTOA); transition points; and consolidation points.

The entrance facility includes the cabling components needed to provide a means to connect the outside service facilities to the premises cabling. This can include service entrance pathways, cables, connecting hardware, circuit protection devices, and transition hardware.

Tuesday, November 24, 2020

structured cabling technician salary

 structured cabling technician salary

An early career Cable Technician with 1-4 years of experience earns an average total compensation of $16.24 based on 270 salaries. ... In their late career (20 years and higher), employees earn an average total compensation of $25.

Yes, there are many challenges you meet everyday. There are “Special customers” you have to tend to and lots of obstacles you have to go around. I had months where every job took me more than 2hrs to finish and i had months where i was in and out of a house in less than 1/2 and hour. In my humble opinion, the guys who have it rough are the guys who work in residential/commercial areas where you have to do pole work. Dragging out a 20ft ladder, extending it and climbing up it on a very cold day can get to you. The worst is going into someone backyard and gaffing a pole (spikes on your boots) and working up 50 feet off the ground in adverse weather.

When i was brand new on the job, when analog cable was still a “thing” an asian man came up to me while i was in between jobs. He told me that they cut off his cable by mistake and asked if i can reconnect it. Being naive & want to have good customer service at the time, i went up on the roof where our equipment was located and saw that his line was “tagged” (the port was blocked by a security device) and put him back on the 8 port tap. Went downstairs and he was delighted that the cable came back on. As i was leaving the chinese restaurant, i see that there was old analog boxes that we did not use anymore but FIXED for hot cable boxes. He saw look at them and told me that he will call next time to get them changed out. He told me to order anything on the menu which i ordered shrimp and lobster and they prepared it for me and gave me 2 cans of soda. On my way back into the truck he shoves money in my breastpocket and didn't think much of it. later on i see that it was more than a $20 tip he gave me - he gave me $300 in $20 dollar bills!!

-I Was on lunch on the westside of manhattan & a spanish guy comes up to me while im in my truck having lunch. He gives me the sad story that he missed his appointment and if i can install cable in his place. He is telling me profusely that he will “take care of me” and escorts me upstairs to his apartment. He has about a dozen guests in his apartment and all of them are happy to see me and offer me food and drink which i decline since im on the job. I tell the dispatcher that im installing the equipment in his house and to activate the equipment that i installed in his apartment. As soon as the t.v. comes on, everybody is cheerful and happy claps like i performed some type of miracle. When im about to leave his apartment, he shoves a beer in my toolbag and shoves a bunch of money in my breastpocket. As im going down in the elevator, i see that he was very VERY generous $500 to be exact!! I found out from the doorman that he is a businessman from spain and he is only here for 4 months out of the year and also that FIFA world cup was playing on the tv

-The most money i got on a job was on park ave, the A/V person that was supposed to be there wasn't and was coaching me on how to use this sophi


Sunday, November 22, 2020

10 Reasons Why You Should Pursue a Career in Information Security

 information security engineer jobs

The escalating number of data breaches and threats like ransomware has created a mad dash for information security help. Organizations are scrambling to fill jobs and to compete for top talent, and scores of positions go unfilled for months.

One would think that this kind of job-market frenzy creates big appeal for a person just entering college or considering a career. Especially since information security is one of the few fields where people get snatched up as soon as they walk out with their certificate or diploma 

Friday, November 20, 2020

information security engineer

  senior information security engineer

Do you want to be part of software development but also have a desire to work with hardware? If so, a job as a systems engineer may be the ideal hybrid job for you.

A systems engineer helps design and implement software. But what separates this IT professional from a software engineer is that a systems engineer also plays a large role in the infrastructure side of the solution.

Here’s a rundown of what these engineers do, what they earn and what qualifications are needed to be hired for this job.

Job duties and responsibilities

A systems engineer designs, implements and maintains the infrastructure necessary to run traditional client/server platforms, mainframes and web applications. This role includes installing and supporting software, debugging multiple systems and supporting an enterprise’s users. This specialist also performs high-level root cause analysis for service interruption recovery and implements preventive measures.

On any given day, the system engineer’s duties may overlap with those of a software engineer, systems administrator or network engineer.

Job skills and expertise

The best systems engineers are flexible employees who thrive in complex and rapidly changing work environments and have a solid mix of technical and nontechnical skills.

On the technical side, an engineer must be able to perform analysis, troubleshooting and systems design. Some employers seek candidates with experience in software development, including specification, documentation and quality assurance. Most hiring managers require at least three years of direct experience in the software or hardware the company uses. Experience in a specific industry is also beneficial. As for education requirements, a bachelor's degree in systems engineering or a related field is generally preferred.

On the nontechnical front, systems engineers spend much of their time working with others to determine requirements and solve problems, so solid soft skills are an absolute must. They need top-notch abilities in communication, customer service, time management and teamwork.

Project management skills can be valuable in an engineering job as well, given the central role the systems engineer has in large projects that involve many different aspects of the enterprise

Thursday, November 19, 2020

What is security engineering process?

  information security engineering

The creation of secure systems of systems is a complex process. A large variety of security expertise and knowledge specific for application domains is required. This is even more important if systems of systems span different application domains. Then, security threats specific to different application-domains need to be considered. One example is integrated systems for industrial production processes that interface office domains with supply chain management systems as well as a production environment. Such integrated systems of systems can perform very efficient and economic processes. However, due to the many and different domain-specific security requirements and threats security engineering needs to support requirements specification and architecture design very early in the development process in order to ensure resilience and safety of the complete system. Working with different domains implies that properties and its functionalities are specific and the engineering process used for modeling and designing the complete system has to be able to work in this context, covering all the possibilities and allowing the use of trusted solutions that are compatible with the ones of different domains. We present in this paper a security engineering process for creating secure systems of systems that cover the necessities presented above by using a series of security artifacts that contain the domain-specific security information (in terms of security properties) and provide security solutions in the form of security patterns. These patterns contain the definition of the software/hardware elements used for providing the required solution and the information of related patterns for different domains, which provides a very helpful functionality for creating a system of systems.

Security Engineer Career Details

  infosec engineer

Security engineers develop and supervise data and technology security systems to help prevent breaches, taps, and leaks associated with cybercrime. Alternate titles for this career include information assurance engineer, information systems security engineer, and information security engineer.

Companies may combine a security engineering role with an analyst’s role, but these positions typically focus on different things. Security analysts identify cybersecurity weaknesses, while security engineers build systems, such as firewalls and intrusion detection systems, to defend against attacks or leaks.

As commerce and data storage increasingly move into the cloud, organizations increasingly require robust information security systems. As a result, information security professionals can work across diverse industries, such as computer systems design, manufacturing, insurance, finance, and education.

The guide below describes security engineer degree requirements, entry-level experience, job responsibilities, and career skill sets. This page also introduces security engineer degrees that can launch young professionals toward exciting career opportunities in this growing, lucrative field. According to PayScale, security engineers make an average annual salary of $90,923.

Wednesday, November 18, 2020

What Does a Cyber Security Engineer Do?

 infosec engineer

“Individuals with strong communication skills, a penchant for teamwork and a natural curiosity are prime candidates to join the ranks of the nation’s cyber security workforce,” according to CompTIA, the world’s leading technology association.

Across the United States, there were more than 300,000 job openings for cyber security workers in 2018, according to CyberSeek, a free cybersecurity career and workforce resource supported by the National Initiative for Cybersecurity Education, a program of the National Institute of Standards and Technology.

In 2018, US employers posted more than 103,000 job openings for cybersecurity engineers and analysts, a 30 percent increase over the same period in 2017.

There were more than 300,000 job openings for cybersecurity workers in 2018.

These statistics promise excellent job opportunities and salary gains for graduates of Houston Baptist University with a Bachelor of Science in Cyber Engineering.

Worldwide, there’s a need for 2 million cyber security professionals, given that every small, medium and large business is dealing with cyber security issues. HBU graduates with a Cyber Engineering degree will be prepared to fill high-demand cyber engineering and cyber security jobs in energy, healthcare, marine transportation and other industries. Any company involved in critical infrastructure needs at least some cyber engineers who understand both the operational technology and the information technology relevant to that organization.

The Cyber Engineering Program at Houston Baptist University is a four-year undergraduate degree that prepares students for future careers in the cyberspace domain. HBU students in the College of Engineering study Cyber Engineering, along with courses in Computer Science and Electrical Engineering.

Cyber engineers incorporate electrical engineering and computer science to understand cyberspace and use skills developed in digital forensics, security policy and network defense to perform cyber security tasks, as well as work on engineering hardware and software. Cyber engineers design secure systems at the interface of operational technology (sensors and things that move) and information technology (the digital world).

Tuesday, November 17, 2020

What is a cyber security engineer job duties?

  security engineer job description

Security engineers develop and supervise data and technology security systems to help prevent breaches, taps, and leaks associated with cybercrime. Alternate titles for this career include information assurance engineer, information systems security engineer, and information security engineer.

Companies may combine a security engineering role with an analyst’s role, but these positions typically focus on different things. Security analysts identify cybersecurity weaknesses, while security engineers build systems, such as firewalls and intrusion detection systems, to defend against attacks or leaks.

As commerce and data storage increasingly move into the cloud, organizations increasingly require robust information security systems. As a result, information security professionals can work across diverse industries, such as computer systems design, manufacturing, insurance, finance, and education.

The guide below describes security engineer degree requirements, entry-level experience, job responsibilities, and career skill sets. This page also introduces security engineer degrees that can launch young professionals toward exciting career opportunities in this growing, lucrative field. According to PayScale, security engineers make an average annual salary of $90,923.

Monday, November 16, 2020

Steps to Become an Information Assurance Engineer

 The field of information assurance draws people from many different backgrounds, but most possess a drive and passion for cybersecurity and technology. Acquiring the right education, work experience, and skills can help people with these interests to move into a career as an information assurance engineer.

Step One: Earn a Bachelor’s Degree

Information assurance engineers usually hold a bachelor’s degree in computer science, programming, or an equivalent subject that provides a well-rounded background in computers. A growing number of universities provide degrees that are specific to the work of information assurance engineers, such as an online Bachelor of Science in Cybersecurity.

A bachelor’s in cybersecurity provides a broad computer education along with instruction tailored to meeting the demands unique to the field of cybersecurity. Students receive training in ethical hacking as well as defensive strategies in security information and event management. The curriculum covers topics including digital forensics, malware and incident response, compliance, and business processes. The degree offers the necessary knowledge and skills required for information assurance engineers to be able to respond both offensively and defensively to cyber threats.

Step Two: Gain On-the-Job Experience

Getting the right education is an important stepping stone to a career as an information assurance engineer. But most employers also want candidates for entry-level positions to have at least one to two years of experience in a related field. The specifics for this requirement usually depends on the size of the organization. Many information assurance engineers initially work as network or systems administrators.

Mid-level information assurance engineer positions usually require several years of work in information assurance, and more senior positions tend to require five to 10 years of experience. For these more advanced positions, employers want to have confidence that candidates possess sufficiently strong technical skills in a variety of networks, platforms, and databases, which only come with experience.

Step Three: Attain Training and Certification

Securing employment as an information assurance engineer can also rely on acquiring the right certifications. Employers seek some way to validate that a potential employee possesses knowledge of industry best practices. For this reason, they often require candidates to hold relevant certifications that serve as proof of their competencies.

While not mandatory, the following certifications may help build a career in information assurance engineering:

Being competitive means keeping up with the latest developments in cybersecurity, which can mean subscribing to newsletters published by industry leaders, attending hackathons and tech conferences, and following news stories about data breaches. There are also a myriad of seminars, webinars, and courses available that can expand and hone the skills of information assurance engineers.

Step Four: Consider Earning a Master’s Degree for Advancement

Information assurance engineers with work experience can also advance their careers by earning an online master’s in cybersecurity. According to the data analytics company Burning Glass Technologies, this degree may bump the salary of an information assurance engineer by $6,500 a year. The degree delves into the intricacies of cyber technology and sharpens the leadership and business skills critical to positions in upper management.

The curriculum expands upon the foundational knowledge provided by bachelor’s degree programs in areas including digital forensics and incident breaches, deepening analysis and providing for the development of a more sophisticated skill set. Earning a master’s in cybersecurity can offer information assurance engineers more opportunities for advancement in their careers than they’d have with experience and a bachelor’s degree alone.

Information Assurance Engineer Salaries

Information assurance engineers’ salaries vary depending on experience as well as the location of the job, and compensation packages tend to be larger for professionals who have spent more time working in the field. The median annual salary for information assurance engineers in 2018 was $85,367, according to PayScale. The compensation website reports salaries ranging from $56,603 to $132,769 a year.

PayScale reports that the average entry-level salary for information assurance engineers is $75,000 a year. Those with five to 10 years of experience garner salaries that average $90,000 a year. Senior information engineers earn on average $93,000 a year. And those with more than 20 years of experience earn on average $118,000 a year.

Friday, November 13, 2020

10 Qualities that Make a Good Systems Engineer

 security systems engineer job description

All systems engineers should have an understanding of basic concepts and a strong technical background, but these qualities go beyond just the necessities. From 40+ years of experience, I have found that a good systems engineer must have the following 10 qualities.

#1 Patience and Perseverance

To create a complicated system, an engineer must have a lot of patience and perseverance. The more complex the system the longer and more tedious a project it becomes. An engineer cannot figure out everything at once. It takes time to see the big picture, to look for all the small details. You will test and test and still find errors. You have to have patience to know that it takes time and determination to keep going after hundreds of failed attempts.

#2 Ability to Know When You Are Done

A good systems engineer wants their project to be flawless, but often it’s too easy to fall into a perfectionist trap. You tell yourself, “One more change and it will be perfect.” However, doing this may mean you never complete your project and all that hard work will become obsolete. The best engineers know when their system is good enough and when the system needs a little more re-engineering.

#3 An Analytical Brain

Most engineers are naturally analytical, which is probably why they were attracted to the field in the first place. From the moment they could talk, they were the ones that continually asked questions and analyzed the world around them. A good systems engineer can go one step further than just analyzing and look for solutions to the problems and questions they analyze.

#4 Knowledge of Systems Engineering Software Tool(s)

In this day and age all systems engineers should have some experience with tools. Most colleges, especially grad school level, use systems engineering software tools. These tools allow you to create complex systems. They help you organize your information and develop documentation and reports at a much quicker pace and with higher accuracy. They can also help you analyze your information better. Even though you should already be a pro at analyzing, using a tool can help your organize the information in a way that makes analyzing faster and easier. Tools can make you into a better systems engineer. Tools, such as Innoslate®, are capable of improving you as a systems engineer.

#5 Strong Organizational Skills

You need organizational skills in order to handle the amount of information that a systems engineer deals with on a regular basis. It is important to organize well, so you are able to track status and history accurately and create documents and reports that are understandable. Although a tool can greatly improve the way you organize, you still need to understand organizational concepts.

#6 Ability to See the Small Picture

One of the greatest qualities a systems engineer can have is to be detailed oriented. You should be able to look at the small picture and see that all the details are thoroughly reviewed and that no errors occur. You need to be detail oriented type of person. Much of what we do is planning. Just like if you are an event planner, you have to make sure all the details are just right to make the ultimate goal (the event) a success.

#7 Ability to See the Big Picture

The overall system needs to be looked at just as much as the small details that make up the system. You need to make sure that the goal of the entire system is kept in mind throughout the planning. A good systems engineer needs to be able to determine future needs as well. They must have vision (I talk about this in my upcoming book on LML) and be detail oriented, but still be able to see the big picture.

#8 Well Rounded Background

A bad systems engineer knows systems engineering concepts and definitions like the back of his hand, but knows nothing else. A good systems engineering tries to be knowledgeable in other subjects relating to their field. A great systems engineer understands the importance of being well-rounded. A well rounded background will help a systems engineer analyze and find potential issues better than anyone else.

#9 Communication Skills

Unfortunately, English is not a high priority for many engineering colleges. Systems engineers need to communicate well. They need to be able to communicate to non-engineers. Communication skills take time and practice to perfect. If you are a systems engineer and you know that communication is not a strong skill of yours, make the effort to improve.

#10 Ability to Lead, Follow and Work Well in a Team

At some point in your career you will have led, followed, and worked in a team. The best systems engineers know how to do all three well. A good leader knows how to follow and work together with others. A leader understands what his or her team needs to know and understand. The inability to do all three can be detrimental to a project. Systems engineers, more often than not, do extremely important work and need a good leader and a good team to follow.

It takes a lot of time to develop all these qualities. I know I did not have all of them when I began my career. Don’t let this discourage you, but make it a goal to obtain each one of these qualities.


Thursday, November 12, 2020

What is a Security Operations Engineer?

 it security engineer job description

IT Security Operations Engineer

The entire world relies on computer hardware and software. IT Security Operation Engineers are IT professionals who protect an organization’s computers, networks, software, hardware and data from malware and cyber-attacks, whether these components exist onsite on in the field. Essentially, IT Security operations Engineers oversee the design and development of an organization’s IT infrastructure and its security standards.

Engineers further help design, build and support an organization’s core security infrastructure and their information security processes. Their primary objective is to secure data and information by protecting IT systems, and by keeping computer systems and network devices resilient against all forms of cyber-attacks.

One of the most important responsibilities of any organization is to create a secure environment, and they do so with the aid of both in-house and field IT engineers.

IT Security Operations Engineering Job Description

IT security risks have grown as the digital economy has grown. Part of an IT security operations engineering job description, involves the planning, updating and maintenance of the security measures, defenses, and counteractions to stop and avoid internal and external occurrences on computer systems.

As a security operations engineer, the security-service range should be followed on the day in and out.

Usually, they lead the case response work, ensuring that different occurrences are focused to completion and that the correct resources are brought into line to provide the total quality of the company’s security response system.

The IT Security Operations Engineering job description includes the following important responsibilities:

  • To manage penetration testing of both applications and infrastructure
  • To perform susceptibility scans and manage the resolution of threats
  • To assess Software as a Service (SaaS) products for security compliance
  • To manage security applications, such as GDPR
  • To conduct periodic user access control verifications
  • To develop and maintain security monitoring, logging and auditing
  • To install required security patches and updates for a wide range of applications.
  • To monitor system security relating to resiliency, malware intrusion, and patching
  • To assess technical controls and identify areas of improvement
  • To serve as technical security leads for large complex projects that involve cross-functional teams
  • To conduct systems testing to ensure that critical vulnerabilities become identified

Tuesday, November 10, 2020

What is security engineering process?

 

 information security engineering

The creation of secure systems of systems is a complex process. A large variety of security expertise and knowledge specific for application domains is required. This is even more important if systems of systems span different application domains. Then, security threats specific to different application-domains need to be considered. One example is integrated systems for industrial production processes that interface office domains with supply chain management systems as well as a production environment. Such integrated systems of systems can perform very efficient and economic processes. However, due to the many and different domain-specific security requirements and threats security engineering needs to support requirements specification and architecture design very early in the development process in order to ensure resilience and safety of the complete system. Working with different domains implies that properties and its functionalities are specific and the engineering process used for modeling and designing the complete system has to be able to work in this context, covering all the possibilities and allowing the use of trusted solutions that are compatible with the ones of different domains. We present in this paper a security engineering process for creating secure systems of systems that cover the necessities presented above by using a series of security artifacts that contain the domain-specific security information (in terms of security properties) and provide security solutions in the form of security patterns. These patterns contain the definition of the software/hardware elements used for providing the required solution and the information of related patterns for different domains, which provides a very helpful functionality for creating a system of systems.

Sunday, November 8, 2020

The average starting salary for an industrial engineer?

  industrial engineer salary

The average salary for an entry level Industrial Engineer is $59,468. An experienced Industrial Engineer makes about $86,809 per year.

Industrial engineers find ways to eliminate wastefulness in production processes. They devise efficient systems that integrate workers, machines, materials, information, and energy to make a product or provide a service. Find more career information.

Top 3 Industrial Engineer Jobs

  • Industrial Controls Technician Papillion - Omaha, NE

    A successful candidate will possess a two-year degree in Automated Engineering Technology or ... industrial controls technician. A strong understanding of both alternating current and direct ...

  • Rail Quality Engineer Atkins North America, Inc. - Kirkland, WA

    Bachelor's degree in Civil Engineering , Industrial Engineering , or science related program (Process Management, Construction Management) required plus a minimum of seven years' experience in the ...

  • Quality Engineer - Injection Mold - Plastics SkillsetGroup - Professional Staffing Solutions - Torrance, CA

    Bachelor's Degree or equivalent broad knowledge of quality, mechanical or industrial engineering . * Intermediate knowledge of risk management, process control, and continual improvement practices

Saturday, November 7, 2020

structured cabling installers

 structured cabling installers

If you need to install network cables but have no idea how to keep everything organized, you’ve come to the right place. Gather your network cable installation tools and check out all the necessary network cable installation guidelines, followed by the best practices for cabling.

Network Cable Installation Guidelines

When installing network cable, the most important thing to keep in mind is safety. Follow these guidelines and you’re sure to have a safe and secure network cable installation:

Keep Your Cables Organized

  • Don’t bundle the cables over one another, as their performance would be degraded.
  • Make sure the unshielded twisted-pair cables for canceling out EMI from external sources aren’t exposed.
  • Keep the fiber and copper cables in the runs separate.
  • Label the cables at both ends and label the racks and the patch panels as well.
  • Don’t route the cables through pipes or holes. You might want to add more cable runs later.

Cable Planning

  • Test every cable you install and terminate, so that you can immediately separate any potentially malfunctioning one.
  • Make sure you have a port in the patch panel for every horizontal cable you terminate.
  • Ensure there are enough vertical and horizontal runs because even removing a single cable can cause downtime.
  • Use the straight patch panels in the cabling distribution racks and use the angled patch panels in the cabling distribution area.
  • Don’t route the cables over the ports in the patch panels, or over other equipment, but rather above or below the ports and into the horizontal cable manager.
  • Make sure there are at least 2 inches (50 mm) between the cables and conductors.
  • Don’t use patch cables that are constructed with a solid-core STP cable with stranded-core RJ-45 connectors.

Do Not Manipulate the Cables

  • Don’t apply additional twists or staple the cable ties.
  • Don’t pull or stretch the cables beyond their pulling load rate.
  • Don’t bend the cables beyond 90°, or their specified bend radius.

Cable Maintenance

  • Remove all the abandoned cables to prevent airflow restriction and temperature increase.
  • Don’t expose cables to direct sunlight or condensation.

These guidelines are key to a successful and safe network cable installation. Follow them and you’ll feel safe and secure in your processes. If you need a professional with all the network cable installation tools and, more importantly, skills to perfectly handle your network cable installations, MSC Electrical is here for you.

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