Abstract
Sensory enhancement is a form of human enhancement that aims to extend the sensory capabilities of a person beyond what is possible for a normal human. Sensory enhancement can consist in either an enhancement that improves a sense or that extends that sense to perceive light, sound, tactile stimuli, or chemical traces that are beyond the human range. A sensory enhancement may also add a new sense, such as electroreception or modulate a sense so that it can perform completely new functions, such as echolocation (biosonar). This chapter argues that sensory enhancement could be implemented in mainly two ways: either via the application of digital technology or by genetic engineering of the human body. The potential of augmented reality (AR) and of brain-computer Interface (BCI) technology is also explored in the section on digital enhancement. The section on genetic engineering will mainly be concerned with the potential of horizontal gene transfer (HGT). Three arguments on the normative aspects of sensory enhancement are also presented in this chapter. The first considers the instrumental value of being able to perceive new forms of artistic expression. The second concerns the idea of diversity and whether sensory enhancement could increase human diversity. The third argument departs from the “capabilities approach,” formulated by Amartya Sen and Martha Nussbaum, and sketches out the position that we may be deprived in comparison to some possible future enhanced people, even if we do not regret being so.
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References
Abrams, D. M., & Strogatz, S. H. (2003). Modeling the dynamics of language death. Nature, 424, 900.
Ambrose, S. H. (1998). Late Pleistocene human population bottlenecks, volcanic winter, and differentiation of modern humans. Journal of Human Evolution, 34(6), 623–651.
Ashton, K. (2009). That ‘Internet of things’ thing. RFID Journal, http://www.rfidjournal.com/article/view/4986. Accessed 8 April 2011.
Bostrom, N. (2003). Transhumanist values. In F. Adams (Ed.), Ethical issues for the 21st century. Oxford: Philosophical Documentation Center Press.
Bostrom, N., & Ord, T. (2006). The reversal test: Eliminating status quo bias in applied ethics. Ethics, 116, 656–679.
Collier, R. (2010). Rosy outlook for people with diabetes. Canadian Medical Association Journal, 182(5), E235–E236.
Collin, S. P., & Whitehead, D. (2004). The functional roles of passive electroreception in non-electric fishes. Animal Biology, 54(1), 1–25.
Cooper, R. (2007). Can it be a good thing to be deaf? Journal of Medicine and Philosophy, 32(6), 563–583.
Frankena, W. (1973). Ethics (2nd ed., pp. 87–88). Englewood Cliffs: Pearson.
Goldman, J. (2012). Google Glass Explorer Edition. Cnet. http://reviews.cnet.com/camcorders/google-glass-explorer-edition/4505-9340_7-35339166.html?ttag=fbwp
Hameed, J., Harrison, I., Gasson, M. N., & Warwick, K. (2010). A novel human-machine interface using subdermal magnetic implants. Proceedings IEEE International Conference on Cybernetic Intelligent Systems, Reading, pp. 106–110.
Hickey, H. (2008). Bionic eyes: Contact lenses with circuits, lights a possible platform for superhuman vision. The UW Faculty and Staff Newspaper, 25(12). University of Washington.
Jacobs, G. H., Williams, G. A., Cahill, H., & Nathans, J. (2007). Emergence of novel color vision in mice engineered to express a human cone photopigment. Science, 315(5819), 1723–1725.
Jones, G. (2005). Echolocation. Current Biology, 15(13), R484–R488.
Jones, M. P., Pierce, K. E., Jr., & Ward, D. (2007). Avian vision: A review of form and function with special consideration to birds of prey. Journal of Exotic Pet Medicine, 16(2), 69–87.
Kandler, A., & Laland, K. N. (2009). An investigation of the relationship between innovation and cultural diversity. Theoretical Population Biology, 76(1), 59–67.
Kass, L. (2002). Life, liberty, and defense of dignity: The challenge for bioethics (p. 48). San Francisco: Encounter Books.
Langbauer, W. R., Payne, K. B., Charif, R. A., Rapaport, L., & Osborn, F. (1991). African elephants respond to distant playbacks of low-frequency conspecific calls. The Journal of Experimental Biology, 157(1), 35–46.
Lingley, A. R. et al. (2011). A single-pixel wireless contact lens display. Journal of Micromechanics and Microengineering, 21(12), 125014 (8pp).
Nagel, S. K., Carl, C., Kringe, T., Märtin, R., & Konig, P. (2005). Beyond sensory substitution – Learning the sixth sense. Journal of Neural Engineering, 2, R13–R26.
Norton, Q. (2006). A sixth sense for a wired world. Wired Magazine. http://www.wired.com/gadgets/mods/news/2006/06/71087
Nussbaum, M. C. (2000). Women and human development: The capabilities approach. Cambridge: Cambridge University Press.
Payne, K. B., Langbauer, W. R., & Thomas, E. M. (1986). Infrasonic calls of the Asian elephant (Elephas maximus). Behavioral Ecology and Sociobiology, 18(4), 297–301.
Popper, A., & Fay, R. R. (Eds.). (1995). Hearing by bats (Springer handbook of auditory research, Vol. 5). New York: Springer.
Romer, A. S., & Parsons, T. S. (1986). The vertebrate body (6th ed.). Philadelphia: Saunders College Publishing.
Schellekens, E. (2007). The aesthetic value of ideas. Philosophy and conceptual art. Oxford: Oxford University Press.
Sen, A. (1989). Development as capability expansion. Journal of Development Planning, 19, 41–58.
Sen, A. (1993). Capability and well-being. In M. Nussbaum & A. Sen (Eds.), The quality of life (pp. 30–53). New York: Oxford Clarendon Press.
Taleb, N. N. (2007). The black swan: The impact of the highly improbable. New York: Random House.
Walcott, C. (1996). Pigeon homing: Observations, experiments and confusions. The Journal of Experimental Biology, 199(Pt 1), 21–27.
Wilson, A. D., & Baietto, M. (2009). Applications and advances in electronic-nose technologies. Sensors, 9(7), 5099–5148.
Zhiyuan, G., Jiangyan, H., Bensheng, J., Toong, J. L., Yanfei, X., & Tie, Y. (2010). Chimeric gene constructs for generation of fluorescent transgenic ornamental fish. U.S. Patent No. 7, 834, 239. Alexandria, VA: National University of Singapore.
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Jebari, K. (2015). Sensory Enhancement. In: Clausen, J., Levy, N. (eds) Handbook of Neuroethics. Springer, Dordrecht. https://doi.org/10.1007/978-94-007-4707-4_106
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DOI: https://doi.org/10.1007/978-94-007-4707-4_106
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