1. Silicon Prairie Initiative on Robotics in Information Technology
Engineering Ethics

2. The meaning of ETHICS
The discipline dealing with what is good and bad and with moral duty and obligation.
A set of moral principles or values
A theory or system of moral values
The principles of conduct governing an individual or group
Moral: of or relating to principles of right or wrong in behavior

3. Professional Ethics
Lessons learned at home, in school and churches, mosques, synagogues, or temples may not provide enough explicit advice about professional situations.
If everyone's individually-learned lessons were sufficient, why would we need lawyers?
Professional ethics involves obligations to many stakeholders.

4. Ethics in Engineering Design
Engineering work affects public health and safety.
Engineering can effect business practices and politics.
Personal ethics – how we treat others day to day
Professional ethics – deals with problems at an organizational level.
Two corporations
Corporation and government
Corporation and groups of individuals – the public

5. Ethics and Design Ethics problems are like design problems
Open-ended, non-formulaic
No unique, correct answer
Both apply a large body of knowledge to the solution of the problem.
Both involve the use of analytical skills.
Both use heuristics for the search.

6. Ethics in Engineering Design
Design is a social activity
Design involves PEOPLE
design team members
clients
manufacturers
USERS
Designing means accepting responsibility for creating a design for PEOPLE to use.

8. The Prime Directive
The prime directive in American engineering ethics is that Engineers shall hold paramount the safety, health and welfare of the public in the performance of their professional duties.
“Code of Ethics” of the National Society for Professional Engineers.

9. Engineering Societies
Set design standards
Set ethical standards addressing conflicting obligations and their resolution
Provide mechanisms for helping engineers investigate and evaluate ethical behavior
A Professional Society's Code of Ethics addresses standards of behavior with respect to
clients
the profession
the public
the law

10. IEEE Code of Ethics
We, the members of the IEEE, in recognition of the importance of our technologies in affecting the quality of life throughout the world, and in accepting a personal obligation to our profession, its members and the communities we serve, do hereby commit ourselves to the highest ethical and professional conduct and agree:

11. IEEE Code of Ethics
To accept responsibility in making engineering decisions consistent with the safety, health, and welfare of the public, and to disclose promptly factors that might endanger the public or the environment;
To avoid real or perceived conflicts of interest whenever possible, and to disclose them to affected parties when they do exist;

12. IEEE Code of Ethics
To be honest and realistic in stating claims or estimates based on available data;
To reject bribery in all its forms;
To improve the understanding of technology, its appropriate application, and potential consequences;
To maintain and improve our technical competence and to undertake technological tasks for others only if qualified by training or experience, or after full disclosure of pertinent limitations;

13. IEEE Code of Ethics
To seek, accept, and offer honest criticism of technical work, to acknowledge and correct errors, and to credit properly the contributions of others;
To treat fairly all persons regardless of such factors as race, religion, gender, disability, age, or national origin;
To avoid injuring others, their property, reputation, or employment by false or malicious action;

14. IEEE Code of Ethics
To assist colleagues and co-workers in their professional development and to support them in following this code of ethics.

15. Is it OK for me to be working on this project?
Design of a cigarette lighter
Design of cigarette-making machinery
Design of large scale ovens and their specialized buildings in Germany in the 1930s and 1940s
Design of nuclear weapons
The answer: It depends.
We can only hope that we are prepared by our upbringing, our maturity, and our ability to think and reflect about the issues.

16. Heuristics
A heuristic is anything that provides a plausible aid or direction in the solution of a problem.
Heuristics are usually unjustified and potentially fallible.
Engineering design is the use of heuristics.
Heuristics are used to cause the best change in a poorly understood situation within the available resources.

17. Silicon Prairie Initiative on Robotics in Information Technology
Modern Engineering Constraints

18. Concurrent Engineering
Design teams include others in addition to engineers
Manufacturing experts
Marketing and sales professionals
Reliability experts
Cost accountants
Lawyers
Concern with all these areas and their impact on the design is concurrent engineering.

19. -ilities
Concurrent engineering demands consideration of the complete life cycle of the product, process, or project.
Design for:
Manufacturability
Affordability
Reliability
Sustainability
Quality

20. Can this Design Be Made? (DFM)
The design of a product has an ENORMOUS impact on its manufacture.
A basic DFM methodology
Estimate the cost for a given alternative
Reduce the costs of components
Reduce the costs of assembly
Consider the effects on other objectives
If not acceptable, revise the design
REPEAT …

21. Design for Assembly (DFA)
Limit the number of components
Using standard components
Use a base component on which other components can be located
Use components the facilitate retrieval and assembly
Maximize accessibility during manufacturing and maintenance

22. Affordability Engineering Economics The time value of money
Money obtained sooner is more valuable than money obtained later.
Money spent sooner is more costly than money spent later.
Design decisions made today will translate into streams of “financial events” in the future.

23. Arthur M. Wellington’s definition of engineering
“the art of doing that well with one dollar which any bungler can do with two.”

24. Reliability
To an engineer: the probability that an item will perform its function under stated conditions of use and maintenance for a stated measure of a variate.
Incidental failure
Catastrophic failure
Maintainability
Parts easily accessed and repaired
Redundancy

25. Sustainability One generation’s progress can be the next’s nightmare.
Environmental responsibility is incorporated directly into the ethical obligations of engineering.
Air and water quality
Energy consumption
Disposal
Life cycle assessment analysis
Inventory
Impact
Improvement

26. Design for Quality
All of the –ilities are components of the design for quality
A quality design satisfies all constraints
Fully functional within the performance specifications
Meets the objectives as well or better than alternative designs
All the work of the design process is directed to design for quality.

27. House of Quality

28. Laptop Computer House of Quality