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Saturday, November 25, 2017

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Engineering ethics is the field of applied ethics and system of moral principles that apply to the practice of engineering. The field examines and sets the obligations by engineers to society, to their clients, and to the profession. As a scholarly discipline, it is closely related to subjects such as the philosophy of science, the philosophy of engineering, and the ethics of technology.


Video Engineering ethics



Background and origins

The 19th century and growing concern

As engineering rose as a distinct profession during the 19th century, engineers saw themselves as either independent professional practitioners or technical employees of large enterprises. There was considerable tension between the two sides as large industrial employers fought to maintain control of their employees.

In the United States growing professionalism gave rise to the development of four founding engineering societies: The American Society of Civil Engineers (ASCE) (1851), the American Institute of Electrical Engineers (AIEE) (1884), the American Society of Mechanical Engineers (ASME) (1880), and the American Institute of Mining Engineers (AIME) (1871). ASCE and AIEE were more closely identified with the engineer as learned professional, where ASME, to an extent, and AIME almost entirely, identified with the view that the engineer is a technical employee.

Even so, at that time ethics was viewed as a personal rather than a broad professional concern.

Turning of the 20th century and turning point

When the 19th century drew to a close and the 20th century began, there had been series of significant structural failures, including some spectacular bridge failures, notably the Ashtabula River Railroad Disaster (1876), Tay Bridge Disaster (1879), and the Quebec Bridge collapse (1907). These had a profound effect on engineers and forced the profession to confront shortcomings in technical and construction practice, as well as ethical standards.

One response was the development of formal codes of ethics by three of the four founding engineering societies. AIEE adopted theirs in 1912. ASCE and ASME did so in 1914. AIME did not adopt a code of ethics in its history.

Concerns for professional practice and protecting the public highlighted by these bridge failures, as well as the Boston molasses disaster (1919), provided impetus for another movement that had been underway for some time: to require formal credentials (Professional Engineering licensure in the US) as a requirement to practice. This involves meeting some combination of educational, experience, and testing requirements.

In 1950, the Association of German Engineers developed an oath for all its members titled 'The Confession of the Engineers', directly hinting at the role of engineers in the atrocities committed during World War II.

Over the following decades most American states and Canadian provinces either required engineers to be licensed, or passed special legislation reserving title rights to organization of professional engineers. The Canadian model is to require all persons working in fields of engineering that posed a risk to life, health, property, the public welfare and the environment to be licensed, and all provinces required licensing by the 1950s.

The US model has generally been only to require the practicing engineers offering engineering services that impact the public welfare, safety, safeguarding of life, health, or property to be licensed, while engineers working in private industry without a direct offering of engineering services to the public or other businesses, education, and government need not be licensed. This has perpetuated the split between professional engineers and those in private industry. Professional societies have adopted generally uniform codes of ethics.

Recent developments

Efforts to promote ethical practice continue. In addition to the professional societies and chartering organizations efforts with their members, the Canadian Iron Ring and American Order of the Engineer trace their roots to the 1907 Quebec Bridge collapse. Both require members to swear an oath to uphold ethical practice and wear a symbolic ring as a reminder.

In the United States, the National Society of Professional Engineers released in 1946 its Canons of Ethics for Engineers and Rules of Professional Conduct, which evolved to the current Code of Ethics, adopted in 1964. These requests ultimately led to the creation of the Board of Ethical Review in 1954. Ethics cases rarely have easy answers, but the BER's nearly 500 advisory opinions have helped bring clarity to the ethical issues engineers face daily.

Currently, bribery and political corruption is being addressed very directly by several professional societies and business groups around the world. However, new issues have arisen, such as offshoring, sustainable development, and environmental protection, that the profession is having to consider and address.


Maps Engineering ethics



General principles

Codes of engineering ethics identify a specific precedence with respect to the engineer's consideration for the public, clients, employers, and the profession.

Many engineering professional societies have prepared codes of ethics. Some date to the early decades of the twentieth century. These have been incorporated to a greater or lesser degree into the regulatory laws of several jurisdictions. While these statements of general principles served as a guide, engineers still require sound judgment to interpret how the code would apply to specific circumstances.

The general principles of the codes of ethics are largely similar across the various engineering societies and chartering authorities of the world, which further extend the code and publish specific guidance. The following is an example from the American Society of Civil Engineers:

  1. Engineers shall hold paramount the safety, health and welfare of the public and shall strive to comply with the principles of sustainable development in the performance of their professional duties.
  2. Engineers shall perform services only in areas of their competence.
  3. Engineers shall issue public statements only in an objective and truthful manner.
  4. Engineers shall act in professional matters for each employer or client as faithful agents or trustees, and shall avoid conflicts of interest.
  5. Engineers shall build their professional reputation on the merit of their services and shall not compete unfairly with others.
  6. Engineers shall act in such a manner as to uphold and enhance the honor, integrity, and dignity of the engineering profession and shall act with zero-tolerance for bribery, fraud, and corruption.
  7. Engineers shall continue their professional development throughout their careers, and shall provide opportunities for the professional development of those engineers under their supervision.

Obligation to society

The paramount value recognized by engineers is the safety and welfare of the public. As demonstrated by the following selected excerpts, this is the case for professional engineering organizations in nearly every jurisdiction and engineering discipline:

  • Institute of Electrical and Electronics Engineers: "We, the members of the IEEE, ... do hereby commit ourselves to the highest ethical and professional conduct and agree: 1. to accept responsibility in making decisions consistent with the safety, health and welfare of the public, and to disclose promptly factors that might endanger the public or the environment;"
  • Institution of Civil Engineers: "Members of the ICE should always be aware of their overriding responsibility to the public good. A member's obligations to the client can never override this, and members of the ICE should not enter undertakings which compromise this responsibility. The 'public good' encompasses care and respect for the environment, and for humanity's cultural, historical and archaeological heritage, as well as the primary responsibility members have to protect the health and well being of present and future generations."
  • Professional Engineers Ontario: "A practitioner shall, regard the practitioner's duty to public welfare as paramount."
  • National Society of Professional Engineers: "Engineers, in the fulfillment of their professional duties, shall: Hold paramount the safety, health, and welfare of the public."
  • American Society of Mechanical Engineers: "Engineers shall hold paramount the safety, health and welfare of the public in the performance of their professional duties."
  • Institute of Industrial Engineers: "Engineers uphold and advance the integrity, honor and dignity of the engineering profession by: 2. Being honest and impartial, and serving with fidelity the public, their employers and clients."
  • American Institute of Chemical Engineers: "To achieve these goals, members shall hold paramount the safety, health and welfare of the public and protect the environment in performance of their professional duties."
  • American Nuclear Society: "ANS members uphold and advance the integrity and honor of their professions by using their knowledge and skill for the enhancement of human welfare and the environment; being honest and impartial; serving with fidelity the public, their employers, and their clients; and striving to continuously improve the competence and prestige of their various professions."
  • Society of Fire Protection Engineers: "In the practice of their profession, fire protection engineers must maintain and constantly improve their competence and perform under a standard of professional behavior which requires adherence to the highest principles of ethical conduct with balanced regard for the interests of the public, clients, employers, colleagues, and the profession."

Responsibility of engineers

The engineer recognizes that the greatest merit is the work and exercises his profession committed to serving society, attending to the welfare and progress of the majority. By transforming nature for the benefit of mankind, the engineer must increase his awareness of the world as the abode of man, his interest in the universe as a guarantee of overcoming his spirit, and knowledge of reality to make the world fairer and happier. The engineer should reject any paper that is intended to harm the general interest, thus avoiding a situation that might be hazardous or threatening to the environment, life, health, or other rights of human beings. It is an inescapable duty of the engineer to uphold the prestige of the profession, to ensure its proper discharge, and to maintain a professional demeanor rooted in ability, honesty, fortitude, temperance, magnanimity, modesty, honesty, and justice; with the consciousness of individual well-being subordinate to the social good. The engineer and his employer must ensure the continuous improvement of his knowledge, particularly of his profession, disseminate his knowledge, share his experience, provide opportunities for education and training of workers, provide recognition, moral and material support to the school where he studied, thus returning the benefits and opportunities he and his employer have received. It is the responsibility of the engineer to carry out his work efficiently and to support the law. In particular, he must ensure compliance with the standards of worker protection as provided by the law. As a professional, the engineer is expected to commit himself to high standards of conduct (NSPE). [1] 11/27/11

Whistleblowing

A basic ethical dilemma is that an engineer has the duty to report to the appropriate authority a possible risk to others from a client or employer failing to follow the engineer's directions. According to first principles, this duty overrides the duty to a client and/or employer. An engineer may be disciplined, or have their license revoked, even if the failure to report such a danger does not result in the loss of life or health.

In many cases, this duty can be discharged by advising the client of the consequences in a forthright matter, and ensuring the client takes the engineer's advice. In very rare cases, where even a governmental authority may not take appropriate action, the engineer can only discharge the duty by making the situation public. As a result, whistleblowing by professional engineers is not an unusual event, and courts have often sided with engineers in such cases, overruling duties to employers and confidentiality considerations that otherwise would have prevented the engineer from speaking out.

Conduct

There are several other ethical issues that engineers may face. Some have to do with technical practice, but many others have to do with broader considerations of business conduct. These include:

  • Relationships with clients, consultants, competitors, and contractors
  • Ensuring legal compliance by clients, client's contractors, and others
  • Conflict of interest
  • Bribery and kickbacks, which also may include:
    • Gifts, meals, services, and entertainment
  • Treatment of confidential or proprietary information
  • Consideration of the employer's assets
  • Outside employment/activities (Moonlighting)

Some engineering societies are addressing environmental protection as a stand-alone question of ethics.

The field of business ethics often overlaps and informs ethical decision making for engineers.


Engineering Ethics Instructor: Götz Veser - ppt download
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Case studies and key individuals

Petroski notes that most engineering failures are much more involved than simple technical mis-calculations and involve the failure of the design process or management culture. However, not all engineering failures involve ethical issues. The infamous collapse of the first Tacoma Narrows Bridge, and the losses of the Mars Polar Lander and Mars Climate Orbiter were technical and design process failures.

These episodes of engineering failure include ethical as well as technical issues.

  • Space Shuttle Columbia disaster (2003)
  • Space Shuttle Challenger disaster (1986)
  • Therac-25 accidents (1985 to 1987)
  • Chernobyl disaster (1986)
  • Bhopal disaster (1984)
  • Kansas City Hyatt Regency walkway collapse (1981)
  • Love Canal (1980), Lois Gibbs
  • Three Mile Island accident (1979)
  • Citigroup Center (1978),
  • Ford Pinto safety problems (1970s)
  • Minamata disease (1908-1973)
  • Chevrolet Corvair safety problems (1960s), Ralph Nader, and Unsafe at Any Speed
  • Boston molasses disaster (1919)
  • Quebec Bridge collapse (1907), Theodore Cooper
  • Johnstown Flood (1889), South Fork Fishing and Hunting Club
  • Tay Bridge Disaster (1879), Thomas Bouch, William Henry Barlow, and William Yolland
  • Ashtabula River Railroad Disaster (1876), Amasa Stone

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Notes


Engineering Ethics Instructor: Götz Veser - ppt download
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References

  • American Society of Civil Engineers (2010) [1914]. Code of Ethics. Reston, Virginia, USA: ASCE Press. Retrieved 2011-12-07. 
  • American Society of Civil Engineers (2000). Ethics Guidelines for Professional Conduct for Civil Engineers (PDF). Reston, Virginia, USA: ASCE Press. Retrieved 2013-11-30. 
  • Institution of Civil Engineers (2004). Royal Charter, By-laws, Regulations and Rules. Retrieved 2006-10-20. 
  • Layton, Edwin (1986). The Revolt of the Engineers: Social Responsibility and the American Engineering Profession. Baltimore, Maryland, USA: The Johns Hopkins University Press. ISBN 0-8018-3287-X. 
  • Petroski, Henry (1985). To Engineer is Human: the Role of Failure in Successful Design. St Martins Press. ISBN 0-312-80680-9. 
  • National Society of Professional Engineers (2007) [1964]. Code of Ethics (PDF). Alexandria, Virginia, USA: NSPE. Retrieved 2006-10-20. 

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Further reading

  • Alford, C.F. (2002). Whistleblowers: Broken Lives and Organizational Power, Cornell University Press.
  • Fleddermann, C.B. (2011). Engineering Ethics, Prentice Hall, 4th edition.
  • Glazer, M.P. (1991).Whistleblower, New York, NY: Basic Books.
  • Harris, C.E., M.S. Pritchard, and M.J. Rabins (2008).Engineering Ethics: Concept and Cases, Wadsworth Publishing, 4th edition.
  • Huesemann, Michael H., and Joyce A. Huesemann (2011). Technofix: Why Technology Won't Save Us or the Environment, Chapter 14, "Critical Science and Social Responsibility", New Society Publishers, Gabriola Island, British Columbia, Canada, ISBN 0865717044, 464 pp.
  • Martin, M.W., and R. Schinzinger (2004). Ethics in Engineering, McGraw-Hill, 4th edition.
  • Van de Poel, I., and L. Royakkers (2011). Ethics, Technology, and Engineering: An Introduction, Wiley-Blackwell.

Engineering Ethics Instructor: Götz Veser - ppt download
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External links

Australia

  • Association of Professional Engineers, Scientists and Managers, Australia
Ethical Decision Making
  • Engineers Australia
Code of Ethics

Canada

  • Association of Professional Engineers and Geoscientists of British Columbia (APEGBC)
Act, Bylaws and Code of Ethics
  • Association of Professional Engineers, Geologists, and Geophysicists of Alberta (APEGGA)
EGGP Code of Ethics
  • Association of Professional Engineers and Geoscientists of Manitoba (APEGM)
Code of Ethics
  • Professional Engineers Ontario (PEO)
Code of Ethics (See link on front page.)
  • L'Ordre des ingénieurs du Québec (OIQ)
Code of Ethics of Engineers
  • Iron Ring
The Ritual of the Calling of an Engineer
  • University of Western Ontario
Software Ethics - A Guide to the Ethical and Legal Use of Software for Members of the University Community of the University of Western Ontario

Germany

  • Verein Deutscher Ingenieure
Ethical principles of engineering profession

Ireland

  • Engineers Ireland
Code of Ethics

Sri Lanka

  • Institution of Engineers, Sri Lanka
Code of Ethics

United Kingdom

  • Association for Consultancy and Engineering (ACE)
Anti-Corruption Action Statement
  • Institution of Civil Engineers (ICE)
Royal Charter, By-laws, Regulations and Rules
  • Institution of Engineering and Technology (IET)
Professional ethics and the IET
  • Engineering Council (EC)
Statement of Ethical Principles

United States

  • National Academy of Engineering
Online Ethics Center of the National Academy of Engineering
  • List of links to various professional and scientific societies' codes of ethics
Onlineethics.org
  • National Institute for Engineering Ethics (NIEE)
  • National Society of Professional Engineers (NSPE)
Code of Ethics
Board of Ethical Review and BER Cases
Ethics Resources and References
  • American Institute of Chemical Engineers (AIChE)
Code of Ethics
  • American Society of Civil Engineers (ASCE)
Code of Ethics
Standards of Professional Conduct for Civil Engineers
  • American Society of Mechanical Engineers (ASME), Code of Ethics
  • Institute of Electrical and Electronics Engineers (IEEE)
Code of Ethics
  • The Order of the Engineer
The Obligation of an Engineer
  • Society of Manufacturing Engineers (SME)
Code of Ethics

International

  • Global Infrastructure Anti-Corruption Centre
  • Transparency International

Source of article : Wikipedia