About the position

At the Department of Civil and Environmental Engineering, https://www.ntnu.no/ibm, there is a PhD fellowship available. The research project is designed in collaboration with other departments at the Faculty of Engineering and faculties at NTNU. For a position as a PhD Candidate, the goal is a completed doctoral education up to an obtained doctoral degree.

The research field addresses innovation, sustainability, digitization, and entrepreneurship as emerging areas in universities. Innovation and sustainability have become increasingly important in recent years in education and research in addressing global challenges and strengthen the collaboration and transfer of knowledge between public as education and private sectors. NTNU, Faculty of Engineering need to focus more on linkages between innovation, entrepreneurship, and public policy in the development of human society. Innovation and sustainability are the key to improve research, sell technology, have better KPIs and unique positions in research, in a proven industrial area together with creating better processes in education and in transfer of technology and innovations. The development of new type of process and methodologies in research and education to arrive at better innovative technology is becoming increasingly important in the universities.

Universities and countries with the ability to overcome the challenges that are typically faced in implementing new research methodologies, new education processes and new competences for the professors and students at all levels together with the scaling up of processes and technologies from the laboratory, proof of concept to commercial production will have an advantage in achieving competitive and sustainable development in shorter timeframes. This development of innovative technologies is being largely driven by the quest for more environmentally sustainable operations, digital transformation, and societal contribution. Understanding enablers of the successful implementation of sustainability and innovation processes in research and education is expected to provide valuable lessons learned and advance in the transfer of technology from university to business and to society. In line with NTNU 2025 Innovation strategy aiming to build an Innovation eco-system by strengthening interdisciplinary collaboration, increase the innovation and commercialization and innovation competences the PhD will seek to create a Framework for sustainable innovation in engineering, education, and transfer of technology, by understanding the context of the research areas, research and development of innovation in education, process and services leading to sustainability and transfer of technology.

You will reportto the Professor.

Duties of the position

Required selection criteria

The appointment is to be made in accordance with the regulations in force concerningState Employees and Civil ServantsandRegulations concerning the degrees ofPhilosophiaeDoctor (PhD)andPhilosodophiaeDoctor (PhD) in artistic researchnational guidelines for appointment as PhD, post doctor and research assistant

Preferred selection criteria

Personal characteristics

We offer

Salary and conditions

PhD candidates are remunerated in code 1017, and are normally remunerated at gross from NOK 491 200 per annum before tax, depending on qualifications and seniority. From the salary, 2% is deducted as a contribution to the Norwegian Public Service Pension Fund.

The period of employment is 3years without teaching requirements.

Appointment to a PhD position requires that you are admitted to the PhD programme in Civil Engineeringwithin three months of employment, and that you participate in an organized PhD programme during the employment period.

The engagement is to be made in accordance with the regulations in force concerning State Employees and Civil Servants, and the acts relating to Control of the Export of Strategic Goods, Services and Technology. Candidates who by assessment of the application and attachment are seen to conflict with the criteria in the latter law will be prohibited from recruitment to NTNU. After the appointment you must assume that there may be changes in the area of work.

It is a prerequisite you can be present at and accessible to the institution daily.

About the application

The application and supporting documentation to be used as the basis for the assessment must be in English

Publications and other scientific work must follow the application. Please note that applications are only evaluated based on the information available on the application deadline. You should ensure that your application shows clearly how your skills and experience meet the criteria which are set out above.

The application must include:

If all,or parts,of your education has been taken abroad, we also ask you to attach documentation of the scope and quality of your entire education, both bachelor's and master's education, in addition to other higher education. Description of the documentation required can befoundhere. If you already have a statement fromNOKUT,pleaseattachthisas well.

Joint works will be considered. If it is difficult to identify your contribution to joint works, you must attach a brief description of your participation.

In the evaluation of which candidate is best qualified, emphasis will be placed on education,experienceand personal and interpersonalqualities.Motivation,ambitions,and potential will also countin the assessment ofthe candidates.

NTNU is committed to following evaluation criteria for research quality according toThe San Francisco Declaration on Research Assessment - DORA.

General information

Working at NTNU

A good work environment is characterized by diversity. We encourage qualified candidates to apply, regardless of their gender, functional capacity or cultural background.

The city of Trondheimis a modern European city with a rich cultural scene. Trondheim is the innovation capital of Norway with a population of 200,000. The Norwegian welfare state, including healthcare, schools, kindergartens and overall equality, is probably the best of its kind in the world. Professional subsidized day-care for children is easily available. Furthermore, Trondheim offers great opportunities for education (including international schools) and possibilities to enjoy nature, culture and family life and has low crime rates and clean air quality.

As an employeeatNTNU, you must at all times adhere to the changes that the development in the subject entails and the organizational changes that are adopted.

In accordance with The Public Information Act (Offentleglova), your name, age, position and municipality may be made public even if you have requested not to have your name entered on the list of applicants.

If you have any questions about the position, please contact Professor Alenka Temeljotov-Salaj, telephone +47 46 44 50 72, email alenka.temeljotov-salaj@ntnu.no . If you have any questions about the recruitment process, please contact Tone Msval Arntzen, e-mail: tone.m.arntzen@ntnu.no

Please submit your application electronically via jobbnorge.no with your CV, diplomas and certificates. Applications submitted elsewhere will not be considered. Diploma Supplement is required to attach for European Master Diplomas outside Norway. Chinese applicants are required to provide confirmation of Master Diploma fromChina Credentials Verification (CHSI).

If you are invited for interview you must include certified copies of transcripts and reference letters. Please refer to the application numberSO IV-7/22when applying.

Application deadline: 21.02.2022

NTNU - knowledge for a better world

The Norwegian University of Science and Technology (NTNU) creates knowledge for a better world and solutions that can change everyday life.

Department of Civil and Environmental Engineering

We conduct research and teaching in civil and transportation engineering, technical planning, structural engineering, water and wastewater engineering and hydraulic engineering. Graduates from our programmes become employees in both the public and private sectors with a sustainability mindset combined with competitive knowledge and skills.The Department of Civil and Environmental Engineeringis one of eight departments in theFaculty of Engineering.

Deadline21st February 2022EmployerNTNU - Norwegian University of Science and TechnologyMunicipalityTrondheimScopeFulltimeDurationTemporaryPlace of serviceDepartment of Civil and Environmental Engineering

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PhD Position in Sustainable Innovation in Engineering and Education job with NORWEGIAN UNIVERSITY OF SCIENCE & TECHNOLOGY - NTNU | 280262 - Times...

Biomedical engineering is the application of the principles and problem-solving techniques of engineering to biology and medicine. This is evident throughout healthcare, from diagnosis and analysis to treatment and recovery, and has entered the public conscience though the proliferation of implantable medical devices, such as pacemakers and artificial hips, to more futuristic technologies such as stem cell engineering and the 3-D printing of biological organs.

Engineering itself is an innovative field, the origin of ideas leading to everything from automobiles to aerospace, skyscrapers to sonar. Biomedical engineering focuses on the advances that improve human health and health care at all levels.

Biomedical engineers differ from other engineering disciplines that have an influence on human health in that biomedical engineers use and apply an intimate knowledge of modern biological principles in their engineering design process. Aspects of mechanical engineering, electrical engineering, chemical engineering, materials science, chemistry, mathematics, and computer science and engineering are all integrated with human biology in biomedical engineering to improve human health, whether it be an advanced prosthetic limb or a breakthrough in identifying proteins within cells.

There are many subdisciplines within biomedical engineering, including the design and development of active and passive medical devices, orthopedic implants, medical imaging, biomedical signal processing, tissue and stem cell engineering, and clinical engineering, just to name a few. Request information to become a biomedical engineering today.

Biomedical engineers work in a wide variety of settings and disciplines. There are opportunities in industry for innovating, designing, and developing new technologies; in academia furthering research and pushing the frontiers of what is medically possible as well as testing, implementing, and developing new diagnostic tools and medical equipment; and in government for establishing safety standards for medical devices. Many biomedical engineers find employment in cutting-edge start-up companies or as entrepreneurs themselves.

Tissue and stem cell engineers are working towards artificial recreation of human organs, aiding in transplants and helping millions around the world live better lives. Experts in medical devices develop new implantable and external devices such as pacemakers, coronary stents, orthopaedic implants, prosthetics, dental products, and ambulatory devices. Clinical engineers work to ensure that medical equipment is safe and reliable for use in clinical settings. Biomedical engineering is an extremely broad field with many opportunities for specialization.

In the last few years, both Forbes and CNN Money have dubbed biomedical engineering as the best health care career out there. And the possibilities within biomedical engineering are nearly endless. New innovations in technology, materials, and knowledge mean that tomorrow's breakthroughs can barely be conceived of today. After all, a generation ago, biomedical engineering, as a field, did not exist.

Career paths in biomedical engineering tend to be driven by the interests of the individual: the huge breadth of the field allows biomedical engineers to develop specialties in an area that interests them, be it biomaterials, neuromodulation devices, orthopaedic repair, or even stem cell engineering. Biomedical engineers often combine an aptitude for problem solving and technical know-how with focused study in medicine, healthcare, and helping others. It is this hybridization that has led to so much innovationand so much opportunityin biomedical engineering.

Like careers in many other engineering fields, biomedical engineers are well paid. Compared to other fields, they earn well above average throughout each stage of their careers. A typical first job as a biomedical engineer nets a salary in excess of $61,000, with many earning significantly more. More advanced careers are comfortably in six figures.

According to the United States Department of Labor, the mean salary for a biomedical engineer is $98,340 with the top ten percent of biomedical engineers earning $149,440.

Economically speaking, medical diagnostics triple in market value each year. Revolutionary advances in medical imaging and medical diagnostics are changing the way medicine is practiced. New medical devices, arising in the research laboratories of biomedical engineers around the world, have completely altered the manner by which disease and trauma is dealt with by physicians, extending the quality and length of human life.

Ultimately, the future of biomedical engineering is tied to both the issues and obstacles we discover and advances and achievements in fields like chemistry, materials science, and biology. Just as in most other fields, interdisciplinarity means that innovation originates from many directions at the same time.

The bachelor's degree in biomedical engineering at Michigan Tech offers undergraduate students many unique, hands-on learning opportunities:

Undergraduate research opportunities are plentiful. On average, six students work alongside each faculty member, researching biomaterials and tissue engineering; biomechanics; or instrumentation/physiological measurements.

Get ready to contribute on the job from day one. Our students benefit from hands-on experiences ranging from to Senior Design to internships/co-ops. Gain real-world experience in the medical device industry, a medical research lab, or a hospital.

Enhance your degree with an emphasis in mechanical engineering, electrical engineering, materials science and engineering, or biotechnology by taking elective courses in these areas.

Our undergraduate program in biomedical engineering prepares you for advanced study in the field. Earn your MS or PhD degrees in biomedical engineering or a related field either at Michigan Tech or at another university.

The curriculum offers excellent preparation for medical school, other health professional programs, and graduate school. Michigan Tech's Director of Pre-Health Professions will help you along the way. Approximately 30 percent of our graduates enroll in a graduate degree program, half of which go on to earn an advanced medical, dental, or veterinary degree.

The University's Early Assurance Program provides early admission to medical school for qualified students, especially those wishing to practice in underserved areas; program partners include Michigan State University College of Human Health, and Wayne State University School of Medicine.

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What Is Biomedical Engineering? | Michigan Technological ...

LONG BEACH, Calif.--(BUSINESS WIRE)--Leading US-based space launch and space services company Virgin Orbit (Nasdaq: VORB) announced today the addition of industry leader Dr. Candace Givens as its new Vice President of Engineering. Dr. Givens joins the Virgin Orbit team as the company scales up its flight rate to accommodate high demand seen from commercial customers, the national security community, the international community, and NASA.

Dr. Givens joins a team that has uniquely demonstrated the ability to bring new technology to spaceflight and move it into regular launch operationsHaving now completed their third commercial spaceflight and having deployed 26 satellites during the first 12 months of operations. In her role as Vice President of Engineering Dr. Givens will work closely with Virgin Orbit chief engineer and senior vice president of technology Kevin Sagis who has been instrumental in developing, proving and establishing the air-launched LauncherOne System.

As we continue to scale, Candaces experience spanning more than 25 years of managing complex, technical and mission critical programs across the commercial, government and defense sectors will be a vital asset across our organization, said Tony Gingiss, Virgin Orbits chief operating officer. Her expertise in organizational leadership and track record as a people-oriented executive and bridge builder with a strong commitment to equitable business practices, smart organizational design and operational excellence is a perfect fit for our Virgin Orbit team.

I have watched Virgin Orbits impressive evolution over the past few years and am thrilled to join such an innovative, creative, forward-thinking team, Dr. Givens said. From responsive launch to a wide array of space solutions, it is clear to me that the mission to open space for good, for everyone, from everywhere is not just an inspiring vision its something Virgin Orbit is already beginning to deliver. The company is investing in the technologies and, most importantly, the people that are committed to making this once implausible future a reality today.

Dr. Givens brings to Virgin Orbit more than two decades of experience combined from Northrop Grumman, Boeing and TRW Space & Defense. Prior to joining Virgin Orbits senior leadership team, she served as vice president of remote sensing programs for Northrop Grummans space systems sector. In this role, she directed the business unit, focusing on key space systems, payloads and software that supported customer missions. In this $500 million business, she drove operational and production efficiencies with integrated development and design activities across the product lines.

Born in Southern California, Dr. Givens holds a bachelors degree in economics, undergraduate studies in electrical engineering, a Master of Science in systems engineering and a Doctor of Education in organizational change and leadership. She is a champion for STEM initiatives and actively mentors students aspiring to become tomorrows innovators in the fields of science, technology, engineering and mathematics. She also serves on the regional advisory board of NPower Baltimore, a tech career-focused nonprofit organization.

About Virgin Orbit

Virgin Orbit (Nasdaq: VORB) operates one of the most flexible and responsive space launch systems ever built. Founded by Sir Richard Branson in 2017, the company began commercial service in 2021, and has already delivered commercial, civil, national security, and international satellites into orbit. Virgin Orbits LauncherOne rockets are designed and manufactured in Long Beach, California, and are air-launched from a modified 747- 400 carrier aircraft that allows Virgin Orbit to operate from locations all over the world in order to best serve each customers needs. Learn more at http://www.virginorbit.com and visit us on LinkedIn, on Twitter @virginorbit, and on Instagram @virgin.orbit.

Cautionary Statement Regarding Forward-Looking Statements

This press release contains certain forward-looking statements within the meaning of the federal securities laws. These forward-looking statements generally are identified by the words believe, project, expect, anticipate, estimate, intend, strategy, future, opportunity, plan, may, should, will, would, will be, will continue, will likely result, and similar expressions. Forward-looking statements are predictions, projections and other statements about future events that are based on current expectations and assumptions and, as a result, are subject to risks and uncertainties. Many factors could cause actual future events to differ materially from the forward-looking statements in this press release. Forward-looking statements speak only as of the date they are made. Readers are cautioned not to put undue reliance on forward-looking statements, and Virgin Orbit assumes no obligation and does not intend to update or revise these forward-looking statements, whether as a result of new information, future events, or otherwise. Virgin Orbit gives no assurance that it will achieve its expectations.

Read more:

Virgin Orbit Adds Distinguished Spaceflight Engineering Executive Amidst Operations Scale Up - Business Wire

The Trickbot Trojan has been revised with a new set of anti-reverse engineering features including the capability to crash computers if analysis tools are detected.

Over the years, Trickbot has evolved from its original state as a banking Trojan to a wider suite of malicious components.

Following the retirement of Dyre in 2016 and the disruption of the Emotet botnet by law enforcement in 2021, Trickbot has filled the gap for many threat actors and is now used to steal financial data and to facilitate the execution of ransomware and due to its versatile, modular nature, has also become a popular option for deploying other forms of malware.

"Between takedown attempts and a global pandemic, it has been diversifying its monetization models and growing stronger," researchers from IBM Trusteer say.

In a new report on the malware's current development, IBM Trusteer has found that the malware's usage continues to escalate and samples of recent Trickbot injections have revealed new features designed to prevent analysis.

Reverse engineering in cybersecurity aims to dissect a malware sample, dismantling the code to find out how it operates -- and potentially how to defend against it. There are three major lines of defense used by the malware to try and prevent reverse engineering from being successful outside of typical obfuscation.

The first trick used by the Trojan is the use of server-side injections, rather than loading them from infected machines.

"Keeping injections on infected machines means they are more likely to land in the hands of security researchers," the researchers explained. "Injections kept locally are also less agile and harder to manipulate in real-time. To move beyond these risks, Trickbot's operators inject from their server, known as server-side injections. To facilitate fetching the right injection at the right moment, the resident Trickbot malware uses a downloader or a JavaScript (JS) loader to communicate with its inject server."

The second method of note is the use of HTTPS communication when injections are fetched from Trickbot's command-and-control (C2) server. Flags are used to specify the page a victim is browsing and requests from unknown or "unwelcome" sources can be ignored, locking up data streams and barring researchers from properly analyzing communication flows.

Certificate errors are also blocked to stop victims from being aware of the C2 server link.

The third line of defense, however, is the most interesting update. An anti-debugging script has been added to code that can trigger a memory overload if a security researcher performs "code beautifying," a technique use to make large swathes of code more readable and easier to analyze.

If Trickbot detects this type of decoding, the malware will throw itself into a loop.

"TrickBot uses a RegEx to detect the beautified setup and throw itself into a loop that increases the dynamic array size on every iteration. After a few rounds, memory is eventually overloaded, and the browser crashes," the team says. "The goal is to anticipate the typical actions researchers will take and ensure their analysis fails."

IBM Trusteer says that Base64 obfuscation, redundant junk script and code, and native function patches are also used to sideline and confuse researchers.

In other security news this month, the FBI issued a warning related to the spread of Diavol ransomware, a strain of malware that uses similar machine fingerprint methods to Trickbot in identifying victim PCs.

Have a tip? Get in touch securely via WhatsApp | Signal at +447713 025 499, or over at Keybase: charlie0

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Trickbot will now try to crash researcher PCs to stop reverse engineering attempts - ZDNet