Vai ai contenuti. | Spostati sulla navigazione | Spostati sulla ricerca | Vai al menu | Contatti | Accessibilità

| Crea un account

Papparotto, Alessandro (2008) Lighting quality and energy consumption. [Tesi di dottorato]

Full text disponibile come:

[img]
Anteprima
Documento PDF
7Mb

Abstract (inglese)

Lighting quality assessment and energy consumption

investigation about the relationship between lighting quality and energy conusmption. Standard and technological review.

Investigation of 3 case studies and realization of one of the three.


Statistiche Download - Aggiungi a RefWorks
Tipo di EPrint:Tesi di dottorato
Relatore:Zecchin, Roberto - Hauser, Gerd
Dottorato (corsi e scuole):Ciclo 19 > Corsi per il 19simo ciclo > FISICA TECNICA
Data di deposito della tesi:2008
Anno di Pubblicazione:2008
Parole chiave (italiano / inglese):Lighting
Settori scientifico-disciplinari MIUR:Area 09 - Ingegneria industriale e dell'informazione > ING-IND/10 Fisica tecnica industriale
Struttura di riferimento:Dipartimenti > pre 2012 - Dipartimento di Fisica Tecnica
Codice ID:273
Depositato il:18 Set 2008
Simple Metadata
Full Metadata
EndNote Format

Bibliografia

I riferimenti della bibliografia possono essere cercati con Cerca la citazione di AIRE, copiando il titolo dell'articolo (o del libro) e la rivista (se presente) nei campi appositi di "Cerca la Citazione di AIRE".
Le url contenute in alcuni riferimenti sono raggiungibili cliccando sul link alla fine della citazione (Vai!) e tramite Google (Ricerca con Google). Il risultato dipende dalla formattazione della citazione.

1. EN 12464-1 „Lighting of workplaces – part 1 indoor work places“ Cerca con Google

2. DIN(UNI) EN 1939 Emergency lighting. Cerca con Google

3. DIN 5035-1 “ Artificial lighting – Concepts and general requirement” Cerca con Google

4. DIN V 18599-4 „Energetische Bewertung von Gebaude- Nutz und Energiebedarf für Beleuchtung“ Cerca con Google

5. EN 15193 „ Energy performance of buildings – „Energy requirements for lighting“ Cerca con Google

6. Fördergemainschaft Gutes Licht, 2007 “Good lighting for offices Building” FGL. Cerca con Google

7. Fördergemainschaft Gutes Licht, 2007 “Lighting with artificial light” FGL. Cerca con Google

8. Fördergemainschaft Gutes Licht, 2007 “ZVEI Guide to DIN EN 12464-1“ FGL. Cerca con Google

9. Fördergemainschaft Gutes Licht, 2007 „DALI - Digital Addressable Lighting Interface” FGL. Cerca con Google

10. BGI 856 „Beleuchtung im Büro“ VBG, LiTG Hamburg 2003. Cerca con Google

11. CIE 117 Technical Report „ Discomfort Galre in Interior lighting“ 1995 Cerca con Google

12. CIE 97 Technical Report “ Maintenance of indoor electric lighting szstems” 1992 Cerca con Google

13. Rea, Fies, 2001 Ninth Edition, “The lighting Handbook”. Illuminating Energy Society of North America. Cerca con Google

14. Voss, Löhnert, Herkel, Wagner, Wambsganß, 2006. “Bürogebäude mit Zukunft”. Solarpraxis Cerca con Google

15. Peukert Martin,2006 “Gebäude Ausstattung”. DVA Cerca con Google

16. Jürgen Hentschel, 5. Auflage 2002. „Licht und beleuchtung“. Hüthig. Cerca con Google

17. Report IEA task 21/ECBCS Annex 29, July 2000. Daylight in buildings. Cerca con Google

18. Jan de Boer, 2004 „Tageslicht Beleuchtung und Kunstlichteinsatz in Verwaltungsbauten mit unterschiedlichen Fassaden“. Frunhofer IRBVerlag Cerca con Google

19. Öytürk, 2005 “ Bestimmung des Guten Sehnwirkungsgad”. Lux Europa 2005 proceedings. Cerca con Google

20. Paul Schmits „Architectural items influencing good lighting practice“.Lux Europa 2005 proceedings. Cerca con Google

21. Peter Dehoff. “The ratio between lighting energy efficiency and User Needs”. Lux Europa 2005 proceedings. Cerca con Google

22. Philips, 1996 „Philips lighting Manual“,LiDAC Lightin desing and application Center. Fifth Edition. Cerca con Google

23. Ettore Guglielmini, 1994 “Gli uffici, il proggetto architettonico”. NIS. Cerca con Google

24. AIDI. “Guida alla progettazione dell´illuminazione naturale” AIDI Gennaio 2003. Cerca con Google

25. AIDI. “Atti del convegno luce e Architettura” Venezia Ottobre 2006. Cerca con Google

26. Sala, Nelli, D´Audino, Lusardi, Trombadore, 2000. “Schermature Solari”. ALINEA Editrice. Cerca con Google

27. Fellin, Forcolini, Palladino, 1999. “Manuale di Illuminotecnica”. Tecniche Nuove. Cerca con Google

28. Neufert 34 Edizione “Enciclopedia pratica del costruire” Hoepli Cerca con Google

29. Neufert 38. Auflage 2005 “Bauentfurfslehre”, Vieweg. Cerca con Google

30. Elenbaas, W. 1972. “Light sources”. New York: Crane, Russak & Co. Cerca con Google

31. Hammer, W. J. 1913. The William J. “Hammer historical collection of incandescent electric lamps”. New York Electrical Society, New Series no. 4. Cerca con Google

32. Schroeder, H. 1923. “History of electric light”. Smithsonian Miscellaneous Collections 76(2). Cerca con Google

33. Forsythe, W. E., and E. Q. Adams. 1937. “The tungsten filament incandescent lamp”. J. Sci. Lab., Denison Univ. Cerca con Google

34. American National Standards Institute. 1996. “Lamp-base temperature rise- Method of measurement” C78.25-1996. New York: ANSI. Cerca con Google

35. Forsythe, W. E., E. Q. Adams, and P. D. Cargill. 1939. “Some factors affecting the operation of incandescent lamps”. J. Sci. Lab., Denison Univ. Cerca con Google

36. Industry Committee on Interior Wiring Design. 1941. “Handbook of interior wiring design”. New York: Industry Committee on Interior Wiring Design. Cerca con Google

37. Potter, W. M., and K. M. Reid. 1959. “Incandescent lamp design life for residential lighting”. Illum. Eng. 54(12):751-57. Cerca con Google

38. Questions and answers on light sources. 1968. Illum. Eng. 63(6):339. Cerca con Google

39. Leighton, L. G. 1962. “Characteristics of ribbon filament lamps” Illum. Eng. 57(3):121-26. Cerca con Google

40. Waymouth, J. F. 1971. “Electric discharge lamps”. Cambridge: M.I.T. Press. Cerca con Google

41. Townsend, M. A. 1982. “Electronics of the fluorescent lamp”. Trans. Am. Inst. Elec. Eng. 61(8):607-12. Cerca con Google

42. Haft, H. H., and W. A. Thornton. 1992. “High performance fluorescent lamps”. J. Illum. Eng. Soc. Cerca con Google

43. Verstegen, J. M. P. J., D. Radielovic, and L. E. Vrenken. 1985. “A new generation deluxe fluorescent lamp”. J. Illum. Eng. Soc. Cerca con Google

44. Denneman, J. W., J. J. de Groot, A. G. Jack, and F. A. S. Ligthart. 1980. “Insights into the fluorescent lamp”. J. Illum. Eng. Soc. Cerca con Google

45. Bessone, C. S., and R. J. Citino. 1981. “Optimum system and lamp parameters for efficient T8 fluorescent systems”. J. Illum. Eng. Soc. Cerca con Google

46. Lowry, E. F., W. C. Gungle, and C. W. Jerome. 1984. “Some problems involved in the design of fluorescent lamps”. Cerca con Google

47. Ouellette, M., B. Collins, and S. Treado. 1993. “The effect of temperature on starting and stabilization of compact fluorescent systems”. Conference Record of the IEEE Industry Applications Society 28th Annual Meeting, Piscataway, NJ: Institute of Electrical and Electronics Engineers. Cerca con Google

48. Hammer, E. E. 1981. “Peak and RMS starting voltage procedure for standard/low energy fluorescent lamps”. J. Illum. Eng. Soc. Cerca con Google

49. Hammer, E. E. 1983. “Fluorescent lamp starting voltage relationships at 60 HZ and high frequency”. J. Illum. Eng. Soc. Cerca con Google

50. Hammer, E. E. 1991. “Fluorescent system interactions with electronic ballasts”. J. Illum. Eng. Soc. Cerca con Google

51. Hammer, E. E. 1984. “Fluorescent lamp operating characteristics at high frequency”. J. Illum. Eng. Cerca con Google

52. Aoike, N., K. Yuhara, and Y. Nobuhara. 1984. “Electronic ballast for fluorescent lamp lighting system of 100 lm/W overall efficiency”. J. Illum. Eng. Soc. Cerca con Google

53. American National Standards Institute. 1995. “Fluorescent lamp ballasts-- Methods of measurement.” ANSI C82.2-1995. New York: ANSI. Cerca con Google

54. He, Y. 1998. National Lighting Product Information Program. Specifier reports: Lighting Circuit Power Reducers. Troy, NY: Lighting Research Center, Rensselaer Polytechnic Institute. Cerca con Google

55. American National Standards Institute. 1993. High-frequency Fluorescent lamp ballasts, ANSI C82.11-1993. New York: ANSI. Cerca con Google

56. Carpenter, W. P.”Application data for proper dimming of cold cathode fluorescent tubing”. Illum. Eng. Cerca con Google

57. Campbell, J. H., H. E. Schultz, and W. H. Abbott.. “Dimming hot cathode fluorescent lamps”. Illum. Cerca con Google

58. Von Zastrow, E. E.. “Fluorescent lamp dimming with semiconductors”. Illum. Eng. Cerca con Google

59. Bunner, R. W., and R. T. Dorsey. “Flashing applications of fluorescent lamps”. Illum. Eng. Cerca con Google

60. Elenbaas, W. 1951. The high pressure mercury discharge. New York: Interscience. Cerca con Google

61. Elenbaas, W. “High pressure mercury-vapor lamps and their applications”. [Eindhoven]: Philips Technical Library. Cerca con Google

62. Till, W. S., and M. Pisciotta. “New designations for mercury lamps”. Illum. Eng. Cerca con Google

63. Waymouth, J. F.. “Electric discharge lamps”. Cambridge: M.I.T. Press. Cerca con Google

64. Barosi, A., and E. Rabusin. “Zirconium-aluminum alloy as a getter for high intensity discharge lamps”. Japanese Journal of Applied Physics Supplement 2. Cerca con Google

65. Boyce, P. R. (1978). Is equivalent sphere illuminance the future? Lighting Research and Technology. Cerca con Google

66. Boyce, P. R. (1983, January). Human factors in lighting: Designing for people. Electrical Engineer, 60(1). Cerca con Google

67. Boyce, P. R. (1987, May and June). Lighting research and lighting design: Bridging the gap. Lighting Design and Application. Cerca con Google

68. Boyce, P. R. (1995a, July). Illuminance selection based on visual performance - and other fairy stories. Paper presented at the Illuminating Engineering Society Annual Conference, New York, NY. Cerca con Google

69. Boyce, P. R. (1995b). The Philips Forum: Report and recommendations. Unpublished report, Lighting Research Center, Rensselaer Polytechnic Institute, Troy, NY. Cerca con Google

70. Boyce, P. R., & Rea, M. S. (1994). A field evaluation of full-spectrum, polarized lighting. Journal of the Illuminating Engineering Society. Cerca con Google

71. Brundrett, G. W. (1983). Persons, not people. The effect of interpersonal differences on design criteria. CIE Journal, 2(1. Cerca con Google

72. Chance, R. E. (1983). The effects of two ranges of fluorescent lighting spectra on human physical performance. Dissertation Abstracts International. Cerca con Google

73. Chase, V. D. (1977, September). Lighting and energy efficiency. Lighting Design + Application. Cerca con Google

74. Collins, B. L. (1994, October). Subjective responses to lighting: A review of the research. The Construction Specifier. Cerca con Google

75. Collins, B. L., Fisher, W. S., Gillette, G. L., & Marans, R. W. (1989). Evaluating office lighting environments: Second level analysis (NISTIR 89-4069). Cerca con Google

76. Gaithersburg, MD: U.S. Department of Commerce, National Institute of Standards and Technology. Cerca con Google

77. Collins, B. L., Fisher, W. S., Gillette, G. L., & Marans, R. W. (1990). Second level post-occupancy evaluation analysis. Journal of the Illluminating Engineering Society. Cerca con Google

78. Commission International de l'Éclairage, Technical Committee T.C.3.1. (1972). A unified framework of methods for evaluating visual performance aspects of lighting (Report No. 19). Paris: Bureau Centrale de la CIE. Cerca con Google

79. Committee on Recommendations for Quality and Quantity of Illumination. (1966). Outline of a standard procedure for computing visual comfort ratings for interior lighting - Report No. 2. Illuminating Engineering. Cerca con Google

80. Committee on Recommendations for Quality and Quantity of Illumination. (1970). A method for evaluating the visual effectiveness of lighting systems - Report No. 4. Illuminating Engineering, . Cerca con Google

81. Cook, T. D., & Campbell, D. T. (1979). Quasi-experimentation: Design and analysis for field settings. Boston: Houghton Mifflin. Cerca con Google

82. Dorsey, R. T., & Blackwell, H. R. A performance-oriented approach to lighting specification. Lighting Design + Application. Cerca con Google

83. Ellis, P. (1986). Functional, aesthetic, and symbolic aspects of office lighting. In J. D. Wineman (Ed.), Behavioral issues in office design (pp. 225-249). New York: Van Nostrand Reinhold. Cerca con Google

84. Erhardt, L. (1994, April). Views on the visual environment. Lighting Design + Application. Cerca con Google

85. Evans, G. W., & Cohen, S. (1987). Environmental stress. In D. Stokols & I. Altman (Eds.), Handbook of Environmental Psychology. New York: Wiley. Cerca con Google

86. Florence, N. (1976, September). Comparison of the energy effectiveness of office lighting systems. Lighting Design + Application. Cerca con Google

87. Flynn, J. E., Spencer, T. J., Martyniuk, O., & Hendrick, C. (1973). Interim study of procedures for investigating the effect of light on impression and behavior. Journal of the Illuminating Engineering Society. Cerca con Google

88. Ghiselli, E. E., Campbell, J. P., & Zedeck, S. (1981). Measurement theory for the behavioral sciences. San Francisco, CA: W. H. Freeman & Co. Cerca con Google

89. Gifford, R. (1994). Scientific evidence for claims about full-spectrum lamps: Past and future. In J. A. Veitch (Ed.)., Full-spectrum lighting effects on performance, mood, and health (IRC Internal Report No. 659, pp. 37-46). Ottawa, ON: National Research Council of Canada, Institute for Research in Construction Cerca con Google

90. Gifford, R., Hine, D. W., & Veitch, J. A. (in press). Meta-analysis for environmentbehavior research, illuminated with a study of lighting level effects on office task performance. In G. T. Moore & R. W. Marans (Eds.), Advances in environment, behavior, and design (Vol. 4). New York: Plenum. Cerca con Google

91. Hayward, D. G., & Birenbaum, L. (1979). Lighting and human behavior. Cerca con Google

92. Proceedings of the 19th Session of the Commission Internationale de l'Éclairage, Kyoto, Japan (CIE Publication No. 50, pp. 283-286). Paris: Bureau Centrale de la CIE. Cerca con Google

93. Heerwagen, J. H. (1990). Affective functioning, "light hunger", and room brightness preferences. Environment and Behavior, 22, 608-635. Cerca con Google

94. Herst, D. J., & Ngai, P. Y. (1978, August). A ranking system based on visual performance potential and visual comfort. Lighting Design + Application, 8(3), pp. 45-52. Cerca con Google

95. Illuminating Engineering Society of North America. (1981). IES lighting handbook (6th ed.): 1981 application volume. New York: Author. Cerca con Google

96. Illuminating Engineering Society of North America. (1987). IES lighting handbook (7th ed.): 1987 application volume. New York: Author. Cerca con Google

97. "Illumination Roundtable III: Lighting research and education for the eighties". (1984, July). Lighting Design + Application, 14(7), pp. 27-34. Cerca con Google

98. Katzev, R. (1992). The impact of energy-efficient office lighting strategies on employee satisfaction and productivity. Environment and Behavior, 24, 759-778. Cerca con Google

99. Kaufman, J. E., & Christensen, J. F. (Eds.). (1989). IES Lighting Ready Reference (2nd ed.). New York: Illuminating Engineering Society of North America. Cerca con Google

100. Kaye, S. M. (1992, October). The psychology of lighting. Lighting Magazine. Cerca con Google

101. Kerlinger, F. N. (1986). Foundations of behavioral research. New York: Holt, Rinehart, & Winston. Cerca con Google

102. Kiernan, V. (1994; December 10). Where there's light there's brass. New Scientist, 144(1955). Cerca con Google

103. Kuller, R., & Wetterberg, L. (1993). Melatonin, cortisol, EEG, ECG and subjective comfort in healthy humans: Impact of two fluorescent lamp types at two light intensities. Lighting Research and Technology. Cerca con Google

104. Levy, A. W. (1978). The CIE visual performance system. Lighting Research and Technology. Cerca con Google

105. Loe, D. L., Mansfield, K. P., & Rowlands, E. (1994). Appearance of lit environment and its relevance in lighting design: Experimental study. Lighting Research and Technology. Cerca con Google

106. Marans, R. W. (1989). Generative evaluations using quantitative methods: A case study. In W. F. E. Preiser (Ed.), Building evaluation. New York: Plenum. Cerca con Google

107. Marans, R. W., & Brown, M. A. (1987). Occupant evaluation of commercial office lighting. Volume II, Preliminary data analysis.). Cerca con Google

108. Marans, R. W., & Yan, X. (1989). Lighting quality and environmental satisfaction in open and enclosed offices. Journal of Architectural and Planning Research. Cerca con Google

109. Miller, N. (1994, March). Pilot study reveals quality results. Lighting Design + Application, 24(3) Cerca con Google

110. Miller, N., McKay, H., & Boyce, P. R. (1995, July). An approach to a measurement of lighting quality. Paper presented at the Illuminating Engineering Society Annual Conference, New York, NY. Cerca con Google

111. Ouellette, M. J. (1993). Measurement of light: Errors in broad band photometry. Building Research Journal. Cerca con Google

112. Pansky, S. H. (1985, February). Lighting standards: Tracing the development of the lighting standard from 1939 to the present. Lighting Design + Application. Cerca con Google

113. Perry, M. J., McFadden, T., Carter, D., & Manzano, E. R. (1995). Validation of, and investigation of physical correlates with, the CSP lighting quality index. Proceedings of the 23rd Session of the Commission Internationale de l'Éclairage (CIE), New Delhi, India, November 1-8, 1995 (Vol. 1, pp. 188-191). Vienna, Austria: CIE. Cerca con Google

114. Rea, M. S. (1984). What's happening to ESI? Lighting Design + Application, 14(6). Cerca con Google

115. Rea, M. S. (1986a). Practical implications of a new visual performance model. Lighting Research and Technology. Cerca con Google

116. Rea, M. S. (1986b). Toward a model of visual performance: Foundations and data. Journal of the Illuminating Engineering Society. Cerca con Google

117. Rea, M. S. (1987). Toward a model of visual performance: A review of methodologies. Journal of the Illuminating Engineering Society, Cerca con Google

118. Rea, M. S. (Ed.). (1993). Lighting handbook: Reference and application (8th ed). New York: Illuminating Engineering Society of North America. Cerca con Google

119. Rea, M. S., & Ouellette, M. J. (19 91). Relative visual performance: A basis for application. Lighting Research and Technology, Cerca con Google

120. Ross, D. K. (1978, August). Task lighting -- yet another view. Lighting Design and Application. Cerca con Google

121. Rubin, A. (1987). Office design measurements for productivity - a research overview (National Bureau of Standards Report NBSIR 87-3688) Washington: U.S. Department of Commerce. Cerca con Google

122. Shepard, M. (1986, December). Lighting and the human condition. EPRI Journal. Cerca con Google

123. Smith, P. L. (1995). Psychophysically principled models of visual simple reaction time. Psychological Review. Cerca con Google

124. Stein, B., Reynolds, J. S., & McGuinness, W. J. (1986). Mechanical and electrical equipment for buildings (7th ed.). New York: Wiley. Cerca con Google

125. Sundstrom, E. (1986). Workplaces. Cambridge, UK: Cambridge University Press. Cerca con Google

126. Taylor, G. H. (1980, May). Office lighting and its effect on good employee performance. The Office. Cerca con Google

127. Tiller, D. K. (1990). Towards a deeper understanding of psychological effects of lighting. Journal of the Illuminating Engineering Society. Cerca con Google

128. Veitch, J. A., & McColl. S. M. (1994). Full-spectrum fluorescent lighting effects on people: A critical review. In J. A. Veitch (Ed.), Full-spectrum lighting effects on performance, mood, and health (IRC-IR-659, pp. 53-111). Ottawa, ON: National Research Council of Canada, Institute for Research in Construction. Cerca con Google

129. Veitch, J. A., Miller, N., McKay, H., & Jones, C. C. (1996). Lighting system effects on judged lighting quality and facial appearance. Paper accepted for presentation at the 1996 Annual Conference of the Illuminating Engineering Society of North America (this volume). Cerca con Google

130. Veitch, J. A., & Newsham, G. R. (1995). Quantifying lighting quality based on experimental investigations of end user performance and preference. In Proceedings of Right Light Three, The Third European Conference on Energy- Efficient Lighting, Newcastle-upon-Tyne, England, June 18-21, 1995(Vol. 1, pp. 119-127). Newcastle-upon-Tyne, UK: Northern Electric PLC. Cerca con Google

131. Wagner, W. F. (1985, April). Round Table: Lighting - an art supported by a technology. Architectural Record. Cerca con Google

132. Waters, C. E., Mistrick, R. G., & Bernecker, C. A. (1995). Discomfort glare from sources of nonuniform luminance. Journal of the Illuminating Engineering Society. Cerca con Google

133. Wilkinson, R. (1969). Some factors influencing the effect of environmental stressors upon performance. Psychological Bulletin. Cerca con Google

134. Wineman, J. D. (Ed.). (1986). Behavioral issues in office design. New York: Van Nostrand Reinhold. Cerca con Google

135. Weston, H. C. 1935. The relation between illumination and visual efficiency: The effect of size of work. Prepared for Industrial Health Research Board (Great Britain) and Medical Research Council (London). London: Her Majesty's Stationery Office. Cerca con Google

136. Weston, H. C. 1945. The relation between illumination and visual efficiency: The effect of brightness contrast, Report No. 87. Prepared for Industrial Health Research Board (Great Britain) and Medical Research Council (London). London, England: Her Majesty's Stationery Office. Cerca con Google

137. Rea, M. S., and M. J. Ouellette. 1991. Relative visual performance: A basis for application. Light. Res. Tech- Cerca con Google

138. Rea, M. S., M. J. Ouellette, and M. E. Kennedy. 1985. Lighting and task parameters affecting posture, performance, and subjective ratings. J. Illum. Eng. Soc- Cerca con Google

139. Weale, R. A. 1961. Retinal illumination and age. Trans. Illum. Eng. Soc. (London)- Cerca con Google

140. Blackwell, O. M., and H. R. Blackwell. 1980. Individual responses to lighting parameters for a population of 235 observers of varying ages. J. Illum. Eng. Soc. Cerca con Google

141. Blackwell, O. M., and H. R. Blackwell. 1971. Visual performance data for 156 normal observers of various ages. J. Illum. Eng. Soc. Cerca con Google

142. Allphin, W. 1963. Sight lines to desk tasks in schools and offices. Illum. Eng. Cerca con Google

143. Crouch, C. L., and J. E. Kaufman. 1963. Practical application of polarization and light control for reduction of reflected glare. Illum. Eng. Cerca con Google

144. Davis, R. G. 1987. Closing the gap: Research, design, and the psychological aspects of lighting. Light. Des. Appl. Cerca con Google

145. Flynn, J. E., A. W. Segil, and G. R. Steffy. 1988. Architectural interior systems: Lighting, acoustics, air conditioning. 2nd ed. New York: Van Nostrand Reinhold. Cerca con Google

146. Flynn, J. E., C. Hendrick, T. Spencer, and O. Martyniuk. 1979. A guide to methodology procedures for measuring subjective impressions in lighting. J. Illum. Eng. Soc. Flynn, J. E. 1977. A study of subjective responses to low energy and nonuniform lighting systems. Light. Des. Appl. Cerca con Google

147. Rowlands, E., D. L. Loe, R. M. McIntosh, and K. P. Mansfield. 1985. Lighting adequacy and quality in office interiors by consideration of subjective assessment and physical measurement. CIE J. Cerca con Google

148. Steffy, G. R. 1990. Architectural lighting design. New York: Van Nostrand Reinhold. Cerca con Google

149. Bernecker, C. A. 1980. The potential for design applications of luminance data. J. Illum. Eng. Soc. Cerca con Google

150. Davis, R. G. 1986. Computer graphics as a design tool. Light. Des. Appl. 16(6):38-40. Cerca con Google

151. Bernecker, C. A., and J. M. Mier. 1985. The effect of source luminance on the perception of environment brightness. J. Illum. Eng. Soc. Cerca con Google

152. Blackwell, H. R., and I. Goodbar. 1964. Letters to the Editor. Illum. Eng. Cerca con Google

153. Rea, M. S. 1981. Visual performance with realistic methods of changing contrast. J. Illum. Eng. Soc. Cerca con Google

154. Rea, M. 1982. Photometry and visual assessment of polarized light under realistic conditions. J. Illum. Eng. Soc. Cerca con Google

155. Lawrence Berkeley Laboratory. 1979. Can polarized lighting panels reduce energy consumption and improve visibility in building interiors? LBL-8671. Prepared by S. Berman and R. Clear. Berkeley, CA: Lawrence Berkeley Laboratory. Cerca con Google

156. Boyce, P. R., and M. S. Rea. 1994. A field evaluation of full-spectrum, polarized lighting. J. Illum. Eng. Soc. Cerca con Google

157. Lighting Research Center. 1993. Lighting Answers: Multilayer polarized panels. Troy, NY: Rensselaer Polytechnic Institute. Cerca con Google

158. IESNA. Task Force on Physics and Visual Aspects of Polarized Light. Multilayer polarized light, TM-4. New York: Illuminating Engineering Society of North America Cerca con Google

159. . Cerca con Google

160. Ballman, T. L., and R. E. Levin. 1987. Illumination in partitioned spaces. J. Illum. Eng. Soc. Cerca con Google

161. Brackett, W. E., W. L. Fink, and W. Pierpoint. 1983. Interior point-by-point calculations in obstructed spaces. J. Illum. Eng. Soc. Cerca con Google

162. Briggs, J. F. 1984. An illuminance survey and analysis of partitioned spaces. J. Illum. Eng. Soc. Cerca con Google

163. Rea, M. S. 1991. Solving the problem of VDT reflections. Progressive Architecture. Cerca con Google

164. Kaplan. H. 1995. Effective lighting for automatic transaction units. Cerca con Google

165. Rea, M. S. 1986. Toward a model of visual performance: Foundations and data. J. Illum. Eng. Soc. Cerca con Google

166. Boyce, P. R., and M. S. Rea. 1987. Plateau and escarpment: The shape of visual performance. Proceedings: 21st session. Commission Internationale de l'Éclairage, Paris: Bureau Central de la CIE. Cerca con Google

167. Steffy, G. R. 1990. Architectural lighting design. New York: Van Nostrand Reinhold. Cerca con Google

168. Baron, R. A., M. S. Rea, and S. G. Daniels. 1992. Effects of indoor lighting (illuminance and spectral distribution) on the performance of cognitive tasks and interpersonal behaviors: The potential mediating role of positive affect. Motiv. Emot. Cerca con Google

169. Loe, D. L., K. P. Mansfield, and E. Rowlands. 1994. Appearance of lit environment and its relevance inlighting design: Experimental study. Light. Res. Tech. Cerca con Google

170. Loe, D. L., and E. Rowlands. 1996. The art and science of lighting: A strategy for lighting design. Light. Res.Tech. Cerca con Google

171. Rowlands, E., D. L. Loe, R. M. McIntosh, and K. P. Mansfield. 1985. Lighting adequacy and quality in office interiors by consideration of subjective assessment and physical measurement. CIE Journal Cerca con Google

172. Wilkins, A. J., I. Nimmo-Smith, A. I. Slater, and L. Bedocs. 1989. Fluorescent lighting, headaches and eyestrain. Light. Res. Tech. Cerca con Google

173. Stevens, R. G., B.W. Wilson, and L. E. Anderson, eds. 1997. The melatonin hypothesis: Breast cancer and use of electric power. Columbus, OH: Battelle Press. Cerca con Google

174. Ouellette, M. J., B. W. Tansley, and I. Pasini. 1993. The dilemma of emergency lighting: Theory vs reality.J. Illum. Eng. Soc. Cerca con Google

175. American Society of Heating, Refrigeration and Air-Conditioning Engineers. 1999. Energy efficient design of new buildings except new low-rise residential buildings, ASHRAE/IES 90.1-1999. Atlanta, GA: ASHRAE. Cerca con Google

176. Hill, H., and V. Bruce. The effects of lighting on the perception of facial surfaces. Journal of Experimental. Psychology: Human Perception and Performance. Cerca con Google

177. Rea, M. S., and M. J. Ouellette. 1991. Relative visual performance: A basis for application. Light. Res. Tech. Cerca con Google

178. Wright, G. A., and M. S. Rea. 1984. Age, a human factor in lighting. Proceedings of the 1984 International Conference on Occupational Ergonomics. Edited by D. A. Attwood, and C. McCann. Rexdale, ON: Human Factors Association of Canada. Cerca con Google

179. Boyce, P. R. 1981. Human factors in lighting, New York: Macmillan. Weale, R. A. 1961. Retinal illumination and age. Trans. Illum. Eng. Soc. (London). Cerca con Google

180. IESNA. 1998. Lighting for the Aged and Partially Sighted Committee. Recommended practice for lighting and the visual environment for senior living, RP-28-98. New York: Illuminating Engineering Society of North America. Cerca con Google

Download statistics

Solo per lo Staff dell Archivio: Modifica questo record