In this article, it has been aimed to examine Nietzsche’s main critique towards different understandings of morals in his era. With this criticism, it is aimed to integrally understand the opinions -which are articulated directly or metaphorically- towards morals which have been encountered. In here, while keeping in mind the difference between the concepts of immoralism and amoralism, Nietzsche’s views are interpreted. Being parallel to that aim mentioned above, it has been investigated if there is a thinking in Nietzsche which (...) can be seen as a kind of understanding of morals (maybe as the understanding of morals without morals) or not. And finally, it has been thought that if Nietzsche’s views on morals have any value for the 21st century and upcoming 22nd century human or not, whether there’s something left to learn for this human from his critiques or not. (shrink)

Most engineers Fwork within social structures governing and governed by a set of values that primarily emphasise economic concerns. The majority of innovations derive from these loci. Given the effects of these innovations on various communities, it is imperative that the values they embody are aligned with those societies. Like other transformative technologies, artificial intelligence systems can be designed by a single organisation but be diffused globally, demonstrating impacts over time. This paper argues that in order to design (...) for this broad stakeholder group, engineers must adopt a systems thinking approach that allows them to understand the sociotechnicity of artificial intelligence systems across sociocultural domains. It claims that value sensitive design, and envisioning cards in particular, provides a solid first step towards helping designers harmonise human values, understood across spatiotemporal boundaries, with economic values, rather than the former coming at the opportunity cost of the latter. (shrink)

Genetic engineering technologies are a subclass of the biotechnology family, and are concerned with the use of laboratory-based technologies to intervene with a given organism at the genetic level, i.e., the level of its DNA. This class of technologies could feasibly be used to treat diseases and disabilities, create disease-resistant crops, or even be used to enhance humans to make them more resistant to certain environmental conditions. However, both therapeutic and enhancement applications of genetic engineering raise serious ethical (...) concerns. This paper examines various objections to genetic engineering (as applied to humans) which have been raised in the literature, and presents a new way to frame these issues, and to look for solutions. Specifically, this paper frames genetic engineering technologies within the ‘design turn in applied ethics’ lens and thus situates these technologies as covarying with societal forces. The value sensitive design (VSD) approach to technology design is then appropriated as the conceptual framework in which genetic engineering technologies can be considered so that they can be designed for important human values. By doing so, this paper brings further nuance to the scholarship on genetic engineering technologies by discussing the sociotechnicity of genetic engineering systems rather than framing them as value-neutral tools that either support or constrain values based on how they are used. (shrink)

Recent experiments have been used to “edit” genomes of various plant, animal and other species, including humans, with unprecedented precision. Furthermore, editing the Cas9 endonuclease gene with a gene encoding the desired guide RNA into an organism, adjacent to an altered gene, could create a “gene drive” that could spread a trait through an entire population of organisms. These experiments represent advances along a spectrum of technological abilities that genetic engineers have been working on since the advent of recombinant DNA (...) techniques. The scientific and bioethics communities have built substantial literatures about the ethical and policy implications of genetic engineering, especially in the age of bioterrorism. However, recent CRISPr/Cas experiments have triggered a rehashing of previous policy discussions, suggesting that the scientific community requires guidance on how to think about social responsibility. We propose a framework to enable analysis of social responsibility, using two example.. (shrink)

Engineering, as a complex and multidimensional practice of technology development, has long been a source of ethical concerns. These concerns have been approached from various perspectives. There are ongoing debates in the literature of the philosophy of engineering/technology about how to organize an optimized view of the values entailed in technology development processes. However, these debates deliver little in the way of a concrete rationale or framework that could comprehensively describe different types of engineering values (...) and their multi-aspect interrelations in real engineering practices. Approaching engineering values from a meaning-based perspective, as in this paper, can be a reliable method of tackling such a controversial problem. This paper therefore proposes that technology development be considered a systemic normative practice and attempts to provide a comprehensive view of various built-in values, their different origins and features, and a way of prioritizing them in real engineering processes. Studying two cases of the Zayandeh Rood Dam and the Abbasi Dam will lead to practical insights into how to understand norms in technology development and incorporate them into engineering practice. (shrink)

We argue that non-epistemic values, including moral ones, play an important role in the construction and choice of models in science and engineering. Our main claim is that non-epistemic values are not only “secondary values” that become important just in case epistemic values leave some issues open. Our point is, on the contrary, that non-epistemic values are as important as epistemic ones when engineers seek to develop the best model of a process or problem. (...) The upshot is that models are neither value-free, nor depend exclusively on epistemic values or use non-epistemic values as tie-breakers. (shrink)

The objective of this paper is to discuss some of the foundational issues centering around the question of integrating education in human values with professional engineering education: its necessity and justification. The paper looks at the efforts in ‘tuning’ the technical education system in India to the national goals in the various phases of curriculum development. The contribution of the engineering profession in national development and India’s self-sufficiency is crucially linked with the institutionalization of expertise and the (...) role of morality and responsibility. This linkage can be created through a proper understanding of the social role of the profession—what motivates the professionals and what makes professional life meaningful. Value education facilitates the process of moral maturity and the development of a ‘holistic’ mindset. This paper deals with the need to create such a mindset, the human values associated with it and gives examples of efforts to impart such education through ‘action-oriented’ programmes introduced in some institutes of engineering in India. (shrink)

Architecture, like ethics, concerns actual rather than ideal choices. William James's remarks on ethics, at a meeting of the Yale Philosophical Club in 1890, could apply equally well to the built environment:The actual possible in this world is vastly narrower than all that is demanded; and there is always a pinch between the ideal and the actual which can only be got through by leaving part of the ideal behind. There is hardly a good which we can imagine except as (...) competing for the possession of the same bit of space and time with some other imagined good.1Health care facilities are spaces in which certain imagined goods—the care of the sick, the treatment or prevention of disease—meet the actual possible of .. (shrink)

Engineering begins with a design problem: how to make occupants of vehicles safer, settle on an inter-face for an x-ray machine, or create more legible road signs. In choosing any particular solution, engineers must make value choices. By focusing on the solving of these problems, Ethics Within Engineering: An Introduction shows how ethics is at the intellectual core of engineering. Built around a number of engaging case studies, it presents real examples of engineering problems that everyone, (...) engineer or not, will recognize, ranging from such simple artifacts as toasters and the layout of burners and knobs on a stove top to the software responsible for the Colombia airliner crash. (shrink)

Engineering, as a complex and multidimensional practice of technology development, has long been a source of ethical concerns. These concerns have been approached from various perspectives. There are ongoing debates in the literature of the philosophy of engineering/technology about how to organize an optimized view of the values entailed in technology development processes. However, these debates deliver little in the way of a concrete rationale or framework that could comprehensively describe different types of engineering values (...) and their multi-aspect interrelations in real engineering practices. Approaching engineering values from a meaning-based perspective, as in this paper, can be a reliable method of tackling such a controversial problem. This paper therefore proposes that technology development be considered a systemic normative practice and attempts to provide a comprehensive view of various built-in values, their different origins and features, and a way of prioritizing them in real engineering processes. Studying two cases of the Zayandeh Rood Dam and the Abbasi Dam will lead to practical insights into how to understand norms in technology development and incorporate them into engineering practice. (shrink)

The twenty-first century presents a major challenge for civil engineering. The magnitude and future importance of some of the problems perceived by society are directly related to the field of the civil engineer, implying an inescapable burden of responsibility for a group whose technical soundness, rational approach and efficiency is highly valued and respected by the citizen. However, the substantial changes in society and in the way it perceives the problems that it considers important call for a thorough review (...) of our structures, both professional and educational; so that our profession, with its undeniable historical prestige, may modernize certain approaches and attitudes in order to continue to be a reliable instrument in the service of society, giving priority from an ethical standpoint to its actions in pursuit of the public good . It possesses important tools to facilitate this work (new technologies, the development of communications, the transmission of scientific thought.···); but there is nevertheless a need for deep reflection on the very essence of civil engineering: what we want it to be in the future, and the ability and willingness to take the lead at a time when society needs disinterested messages, technically supported, reasonably presented and dispassionately transmitted. (shrink)

Individual differences in bodily beauty result in significant differences in life outcomes. Some such differences seem unwarranted. On this basis, various authors have argued that there is a kind of discrimination—lookism—that affects those who are aesthetically disadvantaged. Several strategies have been proposed to address lookism. One aim of this paper is to draw a distinction between two sorts of anti-lookist strategies. Redistributive approaches propose to alter the current distribution of beauty, either by broadening beauty standards, or by giving individuals more (...) options to improve their appearance. Revisionary approaches argue that we should drop our current conception of human beauty in favour of one that is more compatible with social justice goals. Another aim of the paper is to argue that two problems posed by revisionary strategies represent a prima facie reason to prefer redistributive ones. Both problems are rooted in a trade-off between value and justice that is characteristic of revisionary approaches. (shrink)

This article attempts to distinguish between science and technology, on the one hand, and engineering, on the other, offering a brief introduction to engineering values and engineering ethics. The method is (roughly) a philosophical examination of history. Engineering turns out to be a relatively recent enterprise, barely three hundred years old, to have distinctive commitments both technical and moral, and to have changed a good deal both technically and morally during that period. What motivates the (...) paper is the belief that a too-easy equation of engineering with technology tends to obscure the special contribution of engineers to technology and to their own professional standards and so, to obscure as well both the origin and content of engineering ethics. (shrink)

In what follows, I shall focus on what may be defined as the engineering of hu- mans from a philosophical perspective. More precisely, I shall reflect upon the way in which our language increasingly changes when we define our relationship with emerging technologies, specifically human digital twins, which, as our tech- nological replica, can serve as privileged standpoints to try to understand the meaning of the shift from using distinguishable words to define humans and technologies (for instance, when we (...) happen to talk about our health in terms of self-perception) to using indistinguishable words to define humans and technol- ogies (for instance, when we happen to talk about our health in terms of human digital twins’ diagnoses and prognoses). The change of our language shows a kind of optimisation that is taken to the extreme, starting with the optimisation of human bodies’ performances: the more engineered humans are (in that they identify their purpose not with feeling good, for instance, but with preforming in faster and more profitable ways), the better they are (in that they measure themselves not against typically human values, such as feeling good, for in- stance, but against typically engineering values, such as efficiency). But a re- markable paradox emerges, whose meaning shall be the core of my philosophical reflection: the more humans work on optimising themselves, the more they (par- adoxically) work on moving optimisation from themselves, i.e. their capabilities as autonomous humans (starting with self-perception), to technologies, i.e. ways of engineering, specifically automating, themselves. (shrink)

Machine ethics and robot rights are quickly becoming hot topics in artificial intelligence and robotics communities. We will argue that attempts to attribute moral agency and assign rights to all intelligent machines are misguided, whether applied to infrahuman or superhuman AIs, as are proposals to limit the negative effects of AIs by constraining their behavior. As an alternative, we propose a new science of safety engineering for intelligent artificial agents based on maximizing for what humans value. In particular, we (...) challenge the scientific community to develop intelligent systems that have human-friendly values that they provably retain, even under recursive self-improvement. (shrink)

Engineers are normally seen as the archetype of people who make decisions in a rational and quantitative way. However, technological design is not value neutral. The way a technology is designed determines its possibilities, which can, for better or for worse, have consequences for human wellbeing. This leads various scholars to the claim that engineers should explicitly take into account ethical considerations. They are at the cradle of new technological developments and can thereby influence the possible risks and benefits more (...) directly than anybody else. I have argued elsewhere that emotions are an indispensable source of ethical insight into ethical aspects of risk. In this paper I will argue that this means that engineers should also include emotional reflection into their work. This requires a new understanding of the competencies of engineers: they should not be unemotional calculators; quite the opposite, they should work to cultivate their moral emotions and sensitivity, in order to be engaged in morally responsible engineering. (shrink)

1. When we face a choice among conflicting actions, it is necessary to prioritize one action over others. This paper explores the issue of whether there is a universal priority, and if so, how we c...

This paper argues that deep disagreements stem from conflicting worldviews. In particular, I examine how recent moves in engineering education contribute to deep disagreement by inculcating stu-dents into valuing the environment as a key stakeholder in engineering design. However, some graduates who value the environment meet resistance from employers who hold a more traditional engineering worldview, which regards the environment as an externality. Clashing worldviews can, as Robert Fogelin posited, render rational resolution to argument impossible. Disputants must (...) consider the emotional and rhetorical as means to move toward productive ground for argument. I offer two moves from classical rhet-oric–making an exordium and invoking friendliness–as means to shift the frame of an argument and there-by possibly navigate a deep disagreement. (shrink)

« Les récits entendus pendant la Commission Charbonneau ont mis en lumière les manquements éthiques dans le monde de l’ingénierie, ce qui a eu l’effet d’une bombe au Québec. Certains témoignages ont aussi révélé des défaillances au sein des institutions, comme l’Ordre des ingénieurs du Québec. Dix ans après la publication du rapport de la Commission, sommes-nous à l’abri d’une nouvelle crise éthique? Comment repenser notre lien à l’éthique au sein de cette profession? L’éthique et le génie québécois poursuit deux (...) grands objectifs. D’abord, il expose en quoi les institutions québécoises du génie peuvent, et doivent, être perfectionnées au fil du temps. De l’évolution du statut juridique d’ingénieur jusqu’à la gestion de crises, en passant par la promotion de certains idéaux, ces institutions doivent entretenir une quête constante d’excellence. Ensuite, cet ouvrage explique en quoi la délibération éthique, et son caractère moral, est en partie affectée par l’état des institutions du génie. En effet, celles qui sont en piètre état peuvent être une source de conflits éthiques pour les professionnels et professionnelles. Ces conflits sont illustrés avec différentes études de cas, portant notamment sur les loyautés multiples, la corruption grise et la protection de l’environnement. Chaque chapitre propose des questions complémentaires permettant au lecteur de poursuivre ses réflexions sur les sujets abordés. Bien que cet ouvrage ait d’abord été pensé pour les étudiants et étudiantes en génie au Québec, il intéressera aussi les membres des ordres professionnels ou toute personne qui étudie l’histoire et l’amélioration des institutions québécoises. »--Quatrième de couverture. (shrink)

Ethical Engineering: A Practical Guide with Case Studies provides detailed and practical guidance in making decisions about the many ethical issues practicing engineers may face in their professional lives. It outlines a decision-making procedure and helps engineers construct an ethics toolkit consisting of professional models, a comprehensive set of ethical considerations and factors that help in weighing those considerations, and analyses of particular issues, such as reverse engineering a patented process. Illustrating case studies, both brief and detailed, are (...) provided. Features: Introduces the nature of ethical decision making as applied to engineering values and issues. Helps readers develop a detailed ethics toolkit that identifies options and solutions and allows them to monitor and adjust as necessary. Features topics such as safety, sustainability, bioethics, diversity and equality, information technology and AI, as well as critical areas often overlooked in engineering texts, such as mentoring, advertising (for consulting firms), engineering sales, and much more. Includes more than 50 case studies to illustrate a variety of scenarios. Offers an international perspective with codes of ethics from around the world, including Saudi Arabia, India, New Zealand, Chile, and Japan. Adds further cases and samples for discussion and a summary of key ideas. Emphasizing the importance of the moral life and of engineering as an occupation with high ideals, this book helps readers navigate a variety of real-world ethical issues they are likely to face in this increasingly interdisciplinary, global, and diverse profession. (shrink)

What is it about art that can be so captivating? How is it that we find value in the often odd and abstract objects and events we call artworks? William P. Seeley proposes that artworks are attentional engines. They are artifacts that have been intentionally designed to direct attention to critical stylistic features that reveal their point, purpose, or meaning. In developing this view, Seeley argues that there is a lot we can learn about the value of art from interdisciplinary (...) research focused on our perceptual engagement with artworks. Recent breakthroughs in cognitive science and behavioral science can explain how we recognize artworks and how we differentiate them from more quotidian artifacts. Seeley pushes this line of reasoning, showing how cognitive science can help reveal the way artworks function as a unique source of value. Cognitive systems integrate this information into our experience of art, guiding attention and shaping what we perceive. Our understanding and appreciation of artworks is therefore carried in our perceptual experience of them. -/- Attentional Engines explores the pitfalls and potential of this interdisciplinary strategy for understanding art. It articulates a cognitivist theory of art grounded in perceptual psychology and neuroscience and demonstrates its application to a range of puzzles in the philosophy of the arts. This includes questions about the nature of depiction, the role played by metakinesis in dance appreciation, the nature of musical expression, and the power of movies. The provocative interdisciplinary theories Seeley presents will appeal to scholars and students interested in aesthetics, philosophy of mind, philosophy of art, cognitive science, and anyone with a burning curiosity about how artworks work. (shrink)

How do we prepare engineering students to make ethical and responsible decisions in their professional work? This paper presents an approach that enhances engineering students’ engagement with ethical reasoning by simulating decision-making in a complex scenario. The approach has two principal inspirations. The first is Anthony Weston’s scenario-based teaching. Weston’s concept of a scenario is a situation that changes in response to choices made by participants, according to an inner logic. Scenarios can dynamically explore open-ended complex problems without (...) imposing predetermined results, allowing students to apply their ethical reasoning in a more realistic fashion. The second inspiration is Thi Nguyen’s theory of games. According to Nguyen, games are the “art of agency,” meaning that they provide a structure under which some result is agreed to be valuable, along with prescribed ways of achieving that result, in a relatively low-stakes and temporary social arrangement. By playing many games, Nguyen argues, we can develop a “library of agency,” that is to say, a set of values and means to achieving them that can inform how we make high-stakes decisions in real life. Engaging with carefully designed game scenarios, then, can enable students to practice making ethical decisions within a structured framework, which unfolds in response to their choices, while their decisions are driven by some defined goal. This roleplaying game–based approach thus allows students to build their own ethical libraries of agency, in preparation for professional decision-making. The approach is illustrated using a specific example recently deployed in a seminar on engineered living materials (building materials that incorporate living tissues). The scenario uses techniques from tabletop roleplaying games (e.g. Dungeons & Dragons) for outcome resolution, adventure design, and character creation. Through the game, students practice making difficult decisions in a humanitarian context. (shrink)

Engineering begins with a design problem: how to make occupants of vehicles safer, settle on an inter-face for an x-ray machine, or create more legible road signs. In choosing any particular solution, engineers must make value choices. By focusing on the solving of these problems, Ethics Within Engineering: An Introduction shows how ethics is at the intellectual core of engineering. Built around a number of engaging case studies, it presents real examples of engineering problems that everyone, (...) engineer or not, will recognize, ranging from such simple artifacts as toasters and the layout of burners and knobs on a stove top to the software responsible for the Colombia airliner crash. (shrink)

The goal of responsible engineers is the creation of useful and safe technological products and commitment to public health, while respecting the autonomy of the clients and the public. Because engineers often face moral dilemma to resolve such issues, different engineers have chosen different course of actions depending on their respective moral value orientations. Islam provides a value-based mechanism rooted in the Maqasid al-Shari‘ah (the objectives of Islamic law). This mechanism prioritizes some values over others and could help resolve (...) the moral dilemmas faced in engineering. This paper introduces the Islamic interpretive-evaluative maxims to two core issues in engineering ethics: genetically modified foods and whistleblowing. The study aims primarily to provide problem-solving maxims within the Maqasid al-Shari‘ah matrix through which such moral dilemmas in science and engineering could be studied and resolved. (shrink)

There is a lot of conceptual engineering going on in medical research. I substantiate this claim with two examples, the medical debate about cancer classification and about obesity as a disease I also argue that the proper target of conceptual engineering in medical research are experts’ conceptions. These are explicitly written down in documents and guidelines, and they bear on research and policies. In the second part of the chapter, I propose an externalist framework in which conceptions have (...) both the explanatory power of psychological concepts and that of semantic concepts. It is likely, however, that human activities and practices distinct from medical research, and regulated by different practices and epistemic rules, call for different targets for conceptual engineering. I conclude with indicating an open agenda of problems for philosophers of medicine interested in conceptual engineering. (shrink)

Global engineering ethics is the engineering ethics’ response to globalization. It plays a major role in the received narrative about the need for a global engineering ethics, which is often illustrated by stories of some engineers A (of culture X) who interact with people or organizations of culture Y, and as a result encounter conflicts between their (i.e. culture X’s) ethical values and culture Y’s ethical values that generate ethical conundrums to the engineers. Global (...) class='Hi'>engineering ethics is thus needed to help engineers to navigate through these ethical conundrums. However, the received narrative is insufficient in attending to the different nature and scope of ethical challenges for engineers and engineering practices in a globalized context, or so I shall argue. To understand these differences, I elaborate three basic presuppositions that create the need for global engineering ethics and explain their various interpretations. These presuppositions will then form the basis of my discussion of current approaches to global engineering ethics. I also argue that global engineering ethics is not merely reactive but also proactive, but the existing approaches have paid insufficient attention to the proactive dimension of global engineering ethics. So, I will end this chapter by arguing for the importance of the proactive dimension and exploring what it demands from engineers and engineering practices. (shrink)

Climate change is often tackled via a two-pronged approach of behaviour change and technological advancement. Policy studies and social sciences generally take ownership of influencing behaviours, while natural sciences and engineering tackle generating newer, more efficient technologies. Fusion of these methodologies is severely lacking. Engineers are uniquely situated to contribute to positive environmental action in both technological and behavioural realms. This article explores the psychological mindset of engineers as they make decisions to dissect factors that undermine sustainable behaviour. The (...) Theory of Planned Behaviour, Multi-Criteria Decision Analysis and the Health Belief Model are applied to engineering decision making to develop a methodology for engineers to modify their behaviour to consistently make more sustainable choices, and in turn, assist others by making actions towards sustainability more convenient. (shrink)

This paper is based on the discovery of illustrated reports by French engineers describing their visits to the British Isles between 1783 and 1790, a brief period of peace between France and England after the ending of the American War of Independence. The manuscript reports are in the library of the Paris École des ponts et chaussées, which began to send students to Britain in the 1780s, but the engineers studied were of mature years and already well qualified. Two of (...) them, in fact, were the marine engineers Forfait and Lescallier, who brought samples and materials back to France for testing and experiment. They all wrote in great detail of what they had seen, and this included the coastline, ports and arsenals as well as industry. The reports are significant for the wealth of information they contain, which would be of immense value to a hostile power. The reasons for their being in the Ponts et chaussées library are considered. We examine the origins of that school, the engineers who came, their careers, their particular expertise, why they came to Britain, and the reports of their findings. Tables of contents of these are provided in section 10, together with representative or especially meaningful exerpts. (shrink)

ABSTRACTSeveral philosophers have inquired into the metaphysical limits of conceptual engineering: ‘Can we engineer? And if so, to what extent?’. This paper is not concerned with answering these questions. It does concern itself, however, with the limits of conceptual engineering, albeit in a largely unexplored sense: it cares about the normative, rather than about the metaphysical limits thereof. I first defend an optimistic claim: I argue that the ameliorative project has, so far, been too modest; there is little (...) value theoretic reason to restrict the project to remedying deficient representational devices, rather than go on a more ambitious quest: conceptual improvement. That being said, I also identify a limitation to the optimistic claim: I show that the ‘should’ in ameliorative projects suffers from a ‘wrong-kind-of-reasons’ problem. Last but not least, I sketch a proposal of normative constraining meant to address both the above results. The proposal gives primacy to epistemic constraints: accordingly, a concept should be ameliorated only insofar as this does not translate into epistemic loss. (shrink)

The Accreditation Board of Engineering and Technology (ABET) has declared that to achieve accredited status, “engineering programs must demonstrate that their graduates have an understanding of professional and ethical responsibility.” Many engineering professors struggle to integrate this required ethics instruction in technical classes and projects because of the lack of a formalized ethics-in-design approach. However, one methodology developed in human-computer interaction research, the Value-Sensitive Design approach, can serve as an engineering education tool which bridges the gap (...) between design and ethics for many engineering disciplines. The three major components of Value-Sensitive Design, conceptual, technical, and empirical, exemplified through a case study which focuses on the development of a command and control supervisory interface for a military cruise missile. (shrink)

Model organisms, the use of green fluorescent proteins, and orthogonal transfer RNA are examples of artificial causes being used in biology. Recent work characterizing the research interests of biologists in terms of a common set of values has ruled out artificial causes as biologically interesting. For instance, Kenneth Waters argues that biologists are primarily interested in causes that actually obtain. Similarly, Marcel Weber argues that biologists are primarily concerned with biologically normal interventions. Both views express a widely received attitude (...) about the interests and goals of biologists as being primarily concerned with the contingent facts of our world. While I agree with this general attitude about the contingent nature of biology, I argue that neither view fully accounts for the diversity that distinguishes the discipline. Along with actual and biologically normal causes, biologists are also interested in artificial causes for technological and observational purposes. I maintain that research interest in artificial causes provides some pragmatic reasons for thinking that research programs in cellular biology aren’t driven by a common core set of values. (shrink)

Engineers today cannot meet their professional obligation to the welfare of society if they do not have a broad, multidisciplinary vision, and yet a multidisciplinary vision is becoming enormously difficult to obtain. A new curriculum must emerge that can integrate a focused, discipline-based scientific approach with an integrated approach. To do this, we must recognize that there is already a structure that is deeply embedded into the current pedagogy, which values performance ratios such as efficiency as paramount. Current trends (...) indicate a call for a broader, reflexive, and preventative curriculum, but like many other calls for change, these will fail if the focus continues to be on wrong values. A model for an adaptive engineering curriculum is developed that strives to maintain a scientific approach as well as a broad “culture-based approach.” A new way of thinking about engineering curriculum must involve a “resymbolization” in which experience, context, community, and certain nonmeasurable principles are valued. (shrink)

Max Deutsch has recently argued that conceptual engineering is stuck in a dilemma. If it is construed as the activity of revising the semantic meanings of existing terms, then it faces an unsurmountable implementation problem. If, on the other hand, it is construed as the activity of introducing new technical terms, then it becomes trivial. According to Deutsch, this conclusion need not worry us, however, for conceptual engineering is ill-motivated to begin with. This paper responds to Deutsch by (...) arguing, first, that there is a third construal of conceptual engineering, neglected by him, which renders it both implementable and non-trivial, and second, that even the more ambitious project of changing semantic meanings is no less feasible than other normative projects we currently pursue. Lastly, the value of conceptual engineering is defended against Deutsch’s objections. (shrink)

Amplifying Bernard Williams’ critique of the Nietzschean project of a revaluation of values, this paper mounts a critique of the idea that whether values will help us to live can serve as a criterion for choosing which values to live by. I explore why it might not serve as a criterion and highlight a number of further difficulties faced by the Nietzschean project. I then come to Nietzsche's defence, arguing that if we distinguish valuations from values, (...) there is at least one form of the project which overcomes those difficulties. Finally, however, I show that even on this reading, the project must either fall prey to ‘Saint-Just's illusion’ or fall back into the problems it was supposed to escape. This highlights important difficulties faced by the Nietzschean project and its descendants while also explaining why Williams, who was so Nietzschean in other respects, remained wary of the revaluation of values as a project. (shrink)

So why be a good engineer? There are basically three reasons: 1) possible detection and the harm that dishonorable acts might cause, 2) a common responsibility to the professional engineering community, and 3) a negative impact on one’s own integrity when one behaves badly. But what if, in the face of these arguments, one is still not convinced? I must admit that there appears to be no knock-down ethical argument available to change the mind of a person set on (...) behaving badly. There remains the option to act in whatever way one may wish. Engineers must realize however that bad manners and/or immorality and/or illegality, even if undetected, will most likely result in harm to themselves and thus rational behavior should result in honorable conduct of professional duties. While the Viking society of northern Europe was in many ways cruel and crude, they had a very simple code of honor. Their goal was to live life so that when they died, others would say He was a good man . The definition of what they meant by a good man might be quite different by contemporary standards but the principle is important. If engineers conduct their professional lives so as to uphold the exemplary values of engineering, the greatest professional honor would be to be remembered as a good engineer. (shrink)

Defining the purposes of engineering ethics education (EEE) is paramount for the engineering education community, and understanding the purposes of EEE can be a catalyst for actively involving students in the learning process. This chapter presents a conceptual framework for systematically describing and comparing various approaches to the purposes of EEE. Such a framework is inherently embedded with a tension between a normative approach and a pragmatic approach regarding the purposes of EEE. The normative approach focuses on what (...) the purposes of EEE should be, an ‘ideal world’ scenario, given the needs of the engineering profession and of society at large. Conversely, the pragmatic approach starts from the question ‘What can be achieved through educational practice?‘ and results from ‘actual world’ situated outcomes of stakeholder negotiations. The authors’ framework balances these. They – scholars from diverse cultural backgrounds – assert that the purposes of EEE are socially constructed and vary from country to country based on unique historical, political, and cultural contexts. Their framework embraces both the individualistic and holistic aspects of EEE, incorporating perspectives from both Western and non-Western traditions. It identifies six purposes of EEE (knowledge, actions, personal traits, relationships, etc.), aligning these with examples (e.g., moral knowledge, desirable actions, ethical skills or competencies, care ethics, etc.) and theoretical frameworks (moral epistemology, moral psychology, virtue ethics, objects or qualities of relations, etc.). It is problematic and potentially dangerous when engineering educators design ethics-learning activities without critically examining the purposes of these activities and assessing whether these purposes are justified for educating ethically and professionally competent engineers. This chapter provides tools to help avoid such pitfalls. (shrink)

The engineering knowledge research program is part of the larger effort to articulate a philosophy of engineering and an engineering worldview. Engineering knowledge requires a more comprehensive conceptual framework than scientific knowledge. Engineering is not ‘merely’ applied science. Kuhn and Popper established the limits of scientific knowledge. In parallel, the embrace of complementarity and uncertainty in the new physics undermined the scientific concept of observer-independent knowledge. The paradigm shift from the scientific framework to the broader (...) participant engineering framework entails a problem shift. The detached scientific spectator seeks the ‘facts’ of ‘objective’ reality – out there. The participant, embodied in reality, seeks ‘methods’, about how to work in the world. The engineering knowledge research program is recursively enabling. Advances in engineering knowledge are involved in the unfolding of the nature of reality. Newly understood, quantum uncertainty entails that the participant is a natural inquirer. ‘Practical reason’ is concerned with ‘how we should live’– the defining question of morality. The engineering knowledge research program is selective seeking ‘important truths’, ‘important knowledge’, ‘important methods’ that manifest value, and serve the engineering agenda of ‘the construction of the good.’ The importance of engineering knowledge research program is clear in the new STEM curriculum where educators have been challenged to rethink the relation between science and engineering. A 2015 higher education initiative to integrate engineering colleges into liberal arts and sciences colleges has stalled due to the confusion and conflict between the engineering and scientific representations of knowledge. (shrink)

Human genetic enhancement, examined from the standpoint of the new field of political bioethics, displaces the age-old question of truth: What is human nature? This book displaces that question with another: What kind of human nature should humans want to create for themselves? To answer that question, this book answers two others: What constraints should limit the applications of rapidly developing biotechnologies? What could possibly form the basis for corresponding public policy in a democratic society? Benjamin Gregg focuses on the (...) distinctly political dimensions of human nature, where politics refers to competition among competing values on which to base public policy, legislation, and political culture. This book offers citizens of democratic communities a broad perspective on how they together might best approach urgent questions of how to deal with the socially and morally challenging potential for human genetic engineering. (shrink)

In this précis of The Practical Origins of Ideas: Genealogy as Conceptual Reverse-Engineering (OUP 2021), I summarize the key claims of the book. The book describes, develops, and defends an underappreciated methodological tradition: the tradition of pragmatic genealogy, which aims to identify what our loftiest and most inscrutable conceptual practices do for us by telling strongly idealized, but still historically informed stories about what might have driven people to adopt and elaborate them as they did. What marks out this (...) methodological tradition, I argue, is that it synthesizes two genres of philosophical genealogy that are standardly set against each other: state-of-nature fictions on the one hand and patiently documentary historiography on the other. These two genres of genealogy are usually taken to be mutually exclusive and to answer to radically different philosophical interests and temperaments. But I offer a systematic account of a tradition that combines both genres into a single genealogical method, augmenting genealogy’s power and range by harnessing the strengths and possibilities of both genres. (shrink)

Value capture occurs when an agent’s values are rich and subtle; they enter a social environment that presents simplified — typically quantified — versions of those values; and those simplified articulations come to dominate their practical reasoning. Examples include becoming motivated by FitBit’s step counts, Twitter Likes and Re-tweets, citation rates, ranked lists of best schools, and Grade Point Averages. We are vulnerable to value capture because of the competitive advantage that such crisp and clear expressions of value (...) have in our private reasoning and our public justification. There is, however, a price. In value capture, we take a central component of our autonomy — our ongoing deliberation over the exact articulation of our values — and we outsource it. And the metrics to which we outsource usually engineered for the interests of some external force, like a large-scale institution’s interest in cross-contextual comprehensibility and quick aggregability. That outsourcing cuts off one of the key benefits to personal deliberation. In value capture, we no longer adjust our values and their articulations in light of own rich experience of the world. Our values should often be carefully tailored to our particular selves or our small-scale communities, but in value capture, we buy our values off the rack. In some cases – like decreasing CO2 emissions – the costs of non-tailored values are outweighed by the benefit of precise collective coordination. In other cases, like in our aesthetic lives, they are not. This suggests that we should want different values suited to different scales. We should want value federalism. Some values are perhaps best pursued at the largest-scale level, others at smaller scales. The problem occurs when we exhibit an excess preference for the largest-scale values – when we consistently let the universal metrics swamp our quieter interests. (shrink)