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Emad Mushtaha, Bayan A. Kana’an, Rania A. Al-Jawazneh & Rizeq Sh. Hammad. (2016) Effect of using different light pipe parameters on the daylight quality in buildings: The case of Jordan. International Journal of Green Energy 13:15, pages 1590-1598.
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Tika Hanjani, Ova Candra Dewi & Nandy Putra. (2023) Analysing light pipe two-side aperture in dense population housing to improve the visual and thermal condition. Energy and Built Environment.
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T. Kavitha, C. Kanmani Pappa, R. Shobana, A. Albert Raj, A. Ahilan, B. Veerasamy & A. Jasmine Gnanamalar. (2023) Advanced day lighting system using fiber optics. Optical and Quantum Electronics 55:6.
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Arzu CILASUN KUNDURACI & Ecenur KIZILÖRENLİ. (2023) A Design Proposal for Improving Daylight Availability of a Deep-Plan Classroom by Using Tubular Daylight Guidance Systems and Movable Shading DevicesGünışığı Tüpleri ve Hareketli Gölgeleme Elemanlarını Kullanarak Derin Planlı Bir Sınıfın Günışığı Performansını İyileştirmeye Yönelik Bir Tasarım Önerisi. Journal of Polytechnic.
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Purnima Mandal & Biswanath Roy. (2022) Prediction of the delivered instantaneous lumen by a straight tubular daylight pipe: an experimental evaluation and application for Indian climatic condition. Journal of Optics.
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Mohammad Javad Kalani & Mahdi Kalani. (2022) Energy cost control of LEDs considering the price of electricity and the desired lighting levels to meet the requirements of smart grids, smart cities, and unregulated energy markets. Optik 258, pages 168926.
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Stanislav Darula, Jitka Mohelníková & Jakub Král. (2021) Daylight in buildings based on tubular light guides. Journal of Building Engineering 44, pages 102608.
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T A Hanjani, O C Dewi & N S D Putra. (2021) Application of Daylight System for Densely Populated Kampung in Jakarta: A Review. IOP Conference Series: Materials Science and Engineering 1165:1, pages 012005.
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Jiraphorn Mahawan & Atthakorn Thongtha. (2021) Experimental Investigation of Illumination Performance of Hollow Light Pipe for Energy Consumption Reduction in Buildings. Energies 14:2, pages 260.
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Shilei Lu, Zewen Yu & Minchao Fan. (2020) Multi-layered and multi-dimensional suitability evaluation of tubular daylight guidance systems. Journal of Building Engineering 32, pages 101820.
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Omar S. Asfour. (2020) A comparison between the daylighting and energy performance of courtyard and atrium buildings considering the hot climate of Saudi Arabia. Journal of Building Engineering 30, pages 101299.
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Allen Jong-Woei Whang, Tsai-Hsien Yang, Zhong-Hao Deng, Yi-Yung Chen, Wei-Chieh Tseng & Chun-Han Chou. (2019) A Review of Daylighting System: For Prototype Systems Performance and Development. Energies 12:15, pages 2863.
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Alfonso Gago-Calderón, Manuel Hermoso-Orzáez, Jose De Andres-Diaz & Guillermo Redrado-Salvatierra. (2018) Evaluation of Uniformity and Glare Improvement with Low Energy Efficiency Losses in Street Lighting LED Luminaires Using Laser-Sintered Polyamide-Based Diffuse Covers. Energies 11:4, pages 816.
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K. Vasilakopoulou, D. Kolokotsa, M. Santamouris, I. Kousis, H. Asproulias & I. Giannarakis. (2017) Analysis of the experimental performance of light pipes. Energy and Buildings 151, pages 242-249.
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Purnima Mandal & Biswanath Roy. (2016) Adaptive dimming scheme based daylight pipe integrated indoor lighting system under Perez All-weather sky model. Adaptive dimming scheme based daylight pipe integrated indoor lighting system under Perez All-weather sky model.
Gordon Lowry. (2016) Energy saving claims for lighting controls in commercial buildings. Energy and Buildings 133, pages 489-497.
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