Chapter 6: Engineering Ethics Motivation: Right thing to do ABET: “An understanding of the ethical, social, economic, and safety considerations in engineering practice is essential for a successful engineering career.” WorldCom, Enron, etc…….
Engineering Ethics ‘Students Fight for the Right to Cheat’ Reuter, Dhaka, April 19. Indian Express, 19 April 1988 “Nearly 100 people were injured when the Bangladeshi students demanding the right to cheat during college final examinations fought teachers and the police on Sunday.”
Engineering Ethics
Engineering Ethics Ethics (definition) (what is your team’s consensus) Ethical (definition)
Engineering Ethics
Engineering Ethics Ethics (definition) a discipline dealing with good and evil and with moral duty moral principles or practice Ethical (definition) of or relating to ethics conforming to accepted and especially professional standards of conduct syn: virtuous, honorable, upright
Engineering Ethics Roots - go way back 18th Century, BC Hammurabi, King of Babylon “If a builder has built a house for a man and has not made the work sound, and the house which he has built has fallen down and so caused the death of the householder, that builder shall be put to death. If it causes the death of the householder’s son, they shall put that builder’s son to death.” 5th Century, BC Socrates Equated virtue with knowledge of one’s true self, holding that no one knowingly does wrong. Buddhism Emphasizes a right path from which is derived a code of ethics.
Engineering Ethics Roots - “continued” Christianity - Matthew 7 “So in everything, do to others what you would have them do to you…” Code of Ethics for Professionals NSPE (National Society of Professional Engineers) Each engineering professional society has their own Code of Ethics
NSPE Code of Ethics for Engineers Preamble Engineering is an important and learned profession. As members of this profession, engineers are expected to exhibit the highest standards of honesty and integrity. Engineering has a direct and vital impact on the quality of life for all people. Accordingly, the services provided by engineers require honesty, impartiality, fairness and equity, and must be dedicated to the protection of the public health, safety, and welfare. Engineers must perform under a standard of professional behavior that requires adherence to the highest principles of ethical conduct. I. Fundamental Canons Engineers, in the fulfillment of their professional duties, shall: 1. Hold paramount the safety, health and welfare of the public. 2. Perform services only in areas of their competence. 3. Issue public statements only in an objective and truthful manner. 4. Act for each employer or client as faithful agents or trustees. 5. Avoid deceptive acts. 6. Conduct themselves honorably, responsibly, ethically, and lawfully so as to enhance the honor, reputation, and usefulness of the profession. http://www.nspe.org/ethics/eh1-code.asp
Engineering Ethics
Case Study You are a faculty member at a university that offers a class titled “Computer Security”. Your goal is to give students an opportunity to protect networks and computer systems. The method you choose is to set up a laboratory with state-of-art security software, and you give students an assignment that requires that they find security vulnerabilities in the software. You are convinced that this is a pedagogically sound method, yet some of the famous folks in the field believe that this models poor ethical standards. Further, it is becoming apparent that possession and use of “attack” tools may in fact be illegal. Here’s the dilemma: Is it ethical to teach students how to break into computer systems as a method of teaching them how to protect the same systems?
Case Study Robin is a senior seeking employment. In January, Robin is offered a job by company X for $4000/month, and given 10 days to accept the offer. Robin accepts this offer. Two weeks later, Robin receives an offer of $4500/month and a more exciting position from Company Y. What should Robin do?
Case Study You are on a team that has discovered a new “miracle” drug that will save the lives of 10,000 people a year who die from a virulent and painful form of brain cancer. Initial animal and human phase 1 testing shows there might be some side effects, but they don’t appear out of the ordinary. What does your team recommend; move forward or put future human trials on hold? Note: The FDA estimates that it takes a little over 8 years to test a drug—including early laboratory and animal testing—before the final approval for use by the general public. Unfortunately, another side effect was discovered in phase 3 clinical trials; namely that there is a 1 in 10,000 chance that the drug itself will cause the death of a patient. What is your teams recommendation? Courtesy FDA Phase 1 clinical studies represent the first time that an IND is tested on humans—generally, healthy volunteers, but sometimes patients (the latter was the case with phase 1 clinical studies of cisplatin). The purpose of these studies is to determine the metabolism, structure-reactivity relationships, mechanism of action, and side effects of the drug in humans. If possible, phase 1 studies are used to ascertain the efficacy of the drug. Phase 1 studies are usually conducted on 20 to 80 subjects. The purpose of phase 2 clinical trials is to determine the efficacy of a drug to treat patients with a specific disease or condition, as well as common short-term side effects or risks. These studies are conducted on a larger scale than phase 1 studies and typically involve several hundred patients. Phase 3 clinical trials provide more information about the efficacy and safety of the drug and allow scientists to extrapolate the results of clinical studies to the general population. Phase 3 studies generally involve several hundred to several thousand people. There are several checks and balances in the process of clinical trials; among them is the use of institutional review boards (IRBs) and advisory committees. IRBs are designed to protect the rights and welfare of people participating in clinical trials both before and during the trials. IRBs comprise at least five experts and lay people with a variety of backgrounds to provide a complete review of clinical proceedings. In addition, the CDER uses advisory committees comprising various experts in order to obtain outside opinions and advice about a new drug, a new indication for a previously approved drug, labeling information about a drug, guidelines for developing particular kinds of drugs, or the adequacy of safety and efficacy data. FDA Drug Approval Process PMA
Case Study You are a manager of a company that would like to get involved in sales of a certain pesticide marker. There is a competitors product that works better than yours, and you know that they have invested over $200 million and 15 years developing a biochemical route to manufacturing the “pest-be-gone” pesticide. Great news, your R&D folks inform you that they have isolated an organism that will produce “pest-be-gone” pesticide? You inform your manager and a development effort is approved. Over the course of the next few months, you learn that the R&D folks isolated the organism from the disposal site of your competitor. What will you do?