Article Title,Year,Volume,Issue,Page Range,Author
Light loss in complex heavily obstructed interiors: influence of obstruction density obstruction height and luminaire type,2006,38,1,53-71,Carter
Potential visibility gains on straight and curved roads from proportional increases in low-beam headlamp intensities,2006,38,3,259-266,Flannagan
Measurement and specification of lighting: A look at the future,2009,41,3,229-243,Goodman
Road lighting and energy saving,2009,41,3,245-260,Boyce
Lamps for improving the energy efficiency of domestic lighting,2009,41,3,219-228,Jacob
Several views of metal halide and high-pressure sodium lighting for outdoor applications,2009,41,4,297-320,Rea
Obstacle detection: A pilot study investigating the effects of lamp type illuminance and age,2009,41,4,321-342,Fotios
Psychophysiological performance and subjective correlates of different lighting conditions,2009,41,4,349-360,Izsó
Effects of dynamic lighting on the visual performance of older adults,2009,41,4,361-370,Izsó
Psychophysiological effects of coloured lighting on older adults,2009,41,4,371-378,Izsó
Correction: Lighting for subsidiary streets: Investigation of lamps of different SPD. Part 2 — Brightness,2009,41,4,381-383,Fotios
Book review: Peter R Boyce (2009) Lighting for driving: Roads vehicles signs and signals. CRC Press (Taylor and Francis Group). 371 pp. Hard cover. £49.99. ISBN 978-0-8493-8529-2,2009,41,4,379-380,Richards
Towards the third stage of the lighting profession,2010,42,1,73-93,Cuttle
A pilot study of lighting and low vision in older people,2010,42,1,103-119,Evans
Office workers’ daily exposure to light and its influence on sleep quality and mood,2010,42,1,33-50,Hubalek
A method for assessing the visibility benefits of roadway lighting,2010,42,2,215-241,Rea
Ecological measurements of light exposure activity and circadian disruption,2010,42,3,271-284,Rea
Influence of ambient lighting in a vehicle interior on the driver’s perceptions,2010,42,3,297-311,Schierz
Field surveys of the effect of lamp spectrum on the perception of safety and comfort at night,2010,42,3,313-329,Knight
Effects of dynamic lighting on office workers: First results of a field study with monthly alternating settings,2010,42,3,345-360,de Kort
Stimulus range bias explains the outcome of preferred-illuminance adjustments,2010,42,4,433-447,Fotios
The effects of red and blue light on alertness and mood at night,2010,42,4,449-458,Plitnick
Correspondence: Lighting for pedestrians: Is facial recognition what matters?,2011,43,1,129-130,Fotios
Photometric measurements for visibility level computations,2011,43,1,119-128,Brémond
Opinion: Is human colour perception really only trichromatic?,2011,43,1,6,Schanda
The influence of ground reflectance on the overcast sky luminance,2011,43,1,45-54,Kocifaj
Individual factors influencing the assessment of the outdoor lighting of an urban footpath,2011,43,1,31-43,Rosen
Toward a model of outdoor lighting scene brightness,2011,43,1,7-30,Rea
Increased illuminance at the workplace: Does it have advantages for daytime shifts?,2011,43,2,185-199,Wilhelm
Measuring circadian light and its impact on adolescents,2011,43,2,201-215,Rea
Daylighting metrics based on illuminance distribution glare and directivity,2011,43,3,291-307,Cantin
Sleep opportunities and periodic light exposures: Impact on biomarkers performance and sleepiness,2011,43,3,349-369,Rea
A proposal to classify road lighting energy efficiency,2011,43,3,271-280,Pracki
The role of drivers' vision in road safety,1978,10,3,125-139,Davison
What do pedestrians look at at night?,2012,44,4,438-448,Davoudian
Maintaining brightness while saving energy in residential roads,2013,45,1,7-21,Fotios
Target visibility level and detection distance on a driving simulator,2013,45,1,76-89,Dumont
The effect of task contrast on visual performance and visual fatigue at a constant illuminance,1980,12,3,144-159,Clarke
Light-emitting diodes in street and roadway lighting - a case study involving mesopic effects,2013,45,2,217-229,Kostic
Evaluating discomfort glare from non-uniform electric light sources,2013,45,3,267-294,Chung
Using obstacle detection to identify appropriate illuminances for lighting in residential roads,2013,45,3,362-376,Fotios
Appraisals of traffic route lighting installations,1973,5,1,10-16,Cornwell
Luminance uniformity and legibility of traffic signs,1974,6,4,217-221,Dahlstedt
Colours of transilluminated traffic signs,1980,12,2,69-72,Terstiege
Influence of truck driver eye position on effectiveness of retroreflective traffic signs,1993,25,1,31-36,Flannagan
Evaluations of in-traffic performance of high-intensity discharge headlamps,1994,26,4,181-188,Flannagan
Dynamic measurement of traffic signluminance as perceived by a driver,2012,44,3,350-363,Mansilla
Luminance coefficients of road surfaces for low angles of illumination,2013,45,5,599-613,Neumann
Residents' perceptions following retrofitting of residential area outdoor lighting with LEDs,2013,45,5,568-584,Kuhn
Using eye-tracking to identify pedestrians' critical visual tasks. Part 2. Fixation on pedestrians,2014,47,2,149-160,Fotios
A smart LED luminaire for energy savings in pedestrian road lighting,2015,47,1,103-115,Juntunen
Applicability of mesopic factors to the driving task,2015,48,1,70-82,Meyer
Optical design of a road lighting luminaire using a chip-on-board LED array,2016,49,5,651-657,Chen
Adaptation luminance simulation for CIE mesopic photometry system implementation,2016,48,1,14-25,Sakai
Illuminance required to detect a pavement obstacle of critical size,2018,50,3,390-404,Fotios
Toward the development of standards for yellow flashing lights used in work zones,2018,50,4,552-570,Rea
Lighting for cycling in the UK: a review,2017,49,3,381-395,Fotios
A freeform reflector for a light-emitting diode bicycle head lamp,2016,48,5,642-652,Wu
Editorial: Save the cyclist,2015,47,3,257,Boyce
Design of a highly efficient LED-based bicycle head lamp with additional ground illumination,2014,46,6,747-753,Cai