ENGLISH
主要著作 楊念哲
【期刊論文】
[1]	Z.-Y. Zheng, M.-F. Guo, N.-C. Yang*, T. Jin (2020). "Single-phase flexible arc suppression device based on BSC-SOGI-PLL method for distribution networks." International Journal of Electrical Power & Energy Systems 121: 106100. (SCI, EI, Impact Factor: 4.418, ENGINEERING, ELECTRICAL & ELECTRONIC, Ranking: 46/266)
[2]	Z.-Y. Zheng, M.-F. Guo, N.-C. Yang*, T. Jin (2020). "Flexible arc-suppression method based on improved distributed commutations modulation for distribution networks." International Journal of Electrical Power and Energy Systems 116: 105580. (SCI, EI, Impact Factor: 4.418, ENGINEERING, ELECTRICAL & ELECTRONIC, Ranking: 46/266)
[3]	Z.-Y. Zheng, M.-F. Guo, N.-C. Yang*, T. Jin (2019). "FASD based on BSC method for distribution networks." IET Gener Trans Distrib 13(24): 5487-5494. (SCI, EI, Impact Factor: 3.229, ENGINEERING, ELECTRICAL & ELECTRONIC, Ranking: 82/266)
[4]	M. Guo, N. Yang*, W. Chen (2019). "Deep-Learning-Based Fault Classification Using Hilbert–Huang Transform and Convolutional Neural Network in Power Distribution Systems." IEEE Sensors Journal 19(16): 6905-6913. (SCI, EI, Impact Factor: 3.076, INSTRUMENTS & INSTRUMENTATION, Ranking: 13/61)
[5]	楊念哲, 曾威智, 李偉豪, 張文睿, 魏榮宗, 陳文瑞, and 吳建明 (2016). "校園配電系統升級整合技術之研究." 台電工程月刊 820: 40-52.
[6]	陳在相, 楊念哲, 楊正光, 曾威智, 陳子揚, and 林維哲 (2015). "因應我國智慧電網技術發展與高占比再生能源併網運作趨勢之對策研究." 臺灣能源期刊 2(2): 129-151.
[7]	魏榮宗, 楊念哲, and 黃立寧 (Jun, 2012). "智慧型微電網混合能源電力監控系統技術開發及衝擊分析." 中國工程師學會會刊 85(3): 106-123.
[8]	陳在相, 謝廷彥, 黃郁文, 楊念哲, and 陳柏宏 (Jun, 2012). "智慧電網與微電網之發展與產業契機." 中國工程師學會會刊 85(3): 35-49.
[9]	楊念哲*, 陳在相, 謝廷彥, and 黃郁文 (2011). "綠建築電力系統之節能設計與規劃." 機電現場技術雜誌/驫禾文化事業有限公司 55: 37-52.
[10]	陳在相, 辜志承, 楊念哲, 廖日能, 巴賈義, 柯唯翔, 孫智超, 曾翊誌, 黃彥霖, and 廖清榮 (2011). "Discussion on Smart Electric Vehicle Development and Conductive Charging System Performance." Monthly Journal of Taipower's Engineering 753: 55-71.
[11]	T.-H. Chen, Y.-W. Huang, G.-C. Pu, N.-C. Yang*, J.-G. Ceng, Y.-C. Chen, H.-H. Liu, and K.-Y. Yang (2009). "Research on the Operation Guidelines and Administrative Maintenance Systems for Feeder Automation System." Monthly Journal of Taipower's Engineering 736: 32-53.
[12]	T.-H. Chen, W.-C. Yang, J.-S. Yang, Y.-F. Hsu, N.-C. Yang*, M.-S. Wang, and T.-J. Chen (2007). "A Study on the Voltage Control Problems due to the Grid Connection of Distributed Generations." Monthly Journal of Taipower's Engineering, 709: 35-50.
[13]	T.-H. Chen, W.-C. Yang, Y.-F. Hsu, N.-C. Yang*, L.-S. Chiang, and C.-H. Chang (2006). "Examination of Primary Distribution Feeder Voltage Quality Control Techniques." Monthly Journal of Taipower's Engineering 692: 18-31.
[14]	T.-Y. Hsieh, T.-H. Chen, and N.-C. Yang (2018). "Efficient Network Fault Analysis Method for Unbalanced Microgrid Systems." International Journal of Electrical Power & Energy Systems. (IJEPES_2017_2830, SCI, EI, Impact Factor: 3.289, ENGINEERING, ELECTRICAL & ELECTRONIC, Ranking: 51/260), Under Minor Revision
[15]	M.-F. Guo, X.-D. Zeng, D.-Y. Chen* and N.-C. Yang*. (2018). "Deep-learning-based Earth Fault Detection using Continuous Wavelet Transform and Convolutional Neural Network in Resonant Grounding Distribution Systems." IEEE Sensors Journal. 18(3): 1291-1300. (SCI, EI, Impact Factor: 2.512, ENGINEERING, ELECTRICAL & ELECTRONIC, Ranking: 85/260)
[16]	M.-F. Guo, N.-C. Yang*, and L.-X. You (2018). "Wavelet transform based early detection method for short circuit faults in power distribution networks." International Journal of Electrical Power & Energy Systems 99: 706-721. (SCI, EI, Impact Factor: 3.289, ENGINEERING, ELECTRICAL & ELECTRONIC, Ranking: 51/260)
[17]	R.-N. Liao, and N.-C. Yang (2017). "Evaluation of Voltage Imbalance on a Low-Voltage Distribution Networks Considering the Delta-connected Distribution Transformers with Symmetrical Neutral-Grounded Structure " IET Gener Trans Distrib. (GTD-2017-063, SCI, EI, Impact Factor: 2.213, ENGINEERING, ELECTRICAL & ELECTRONIC, Ranking: 104/260) accepted to be published.
[18]	R.-N. Liao, and N.-C. Yang (2018). "Load Shedding Strategy using Zero-sequence Power Supply Scheme for Distribution Networks in a modern Home or Building." Energy and Buildings 159(15): 179-190. (SCI, EI, Impact Factor: 4.067, ENGINEERING, CIVIL, Ranking: 3/125)
[19]	R.-N. Liao, and N.-C. Yang (2018). "Modelling and Analysis of Delta-connected Distribution Transformers with Symmetrical Neutral-Grounding Structure for Microgrid Networks." International Journal of Electrical Power & Energy Systems 97: 40-50. (SCI, EI, Impact Factor: 3.289, ENGINEERING, ELECTRICAL & ELECTRONIC, Ranking: 51/260)
[20]	M.-F. Guo, N.-C. Yang*, and W.-F. Chen (2017). "Fault Classification using Hilbert-Huang Transform and Convolution Neural Network in Power Distribution Networks." Electric Power Systems Research. (EPSR-D-17-01764, SCI, EI, Impact Factor: 2.688, ENGINEERING, ELECTRICAL & ELECTRONIC, Ranking: 73/260)
[21]	N.-C. Yang* (2016). "Scenario Analysis of a Hybrid HCPV/uT/BSS Energy System in Taiwan." Applied Energy. (SCI, EI, Impact Factor: 5.613, ENGINEERING, CHEMICAL, Ranking: 6/135)(APEN-D-13-00593, Major Revision)
[22]	N.-C. Yang*, and H.-C. Chen (2018). "Decomposed Newton Algorithm-based Three-Phase Power-Flow for Unbalanced Radial Distribution Networks with Distributed Energy Resources and Electric Vehicle Demands." International Journal of Electrical Power & Energy Systems 96: 473-483. (SCI, EI, Impact Factor: 3.289, ENGINEERING, ELECTRICAL & ELECTRONIC, Ranking: 51/260)
[23]	N.-C. Yang*, and H.-C. Chen (2017). "Three-Phase Power-Flow Solutions using Decomposed Quasi-Newton Method for Unbalanced Radial Distribution Networks." IET Gener Trans Distrib 11(14): 3594-3600. (SCI, EI, Impact Factor: 2.213, ENGINEERING, ELECTRICAL & ELECTRONIC, Ranking: 104/260)
[24]	R.-N. Liao, N.-C. Yang, and T.-H. Chen (2017). "A novel and fast single-phase three-wire power flow solution for a modern home premises wiring systems." International Journal of Electrical Power & Energy Systems 90: 190-207. (SCI, EI, Impact Factor: 3.289, ENGINEERING, ELECTRICAL & ELECTRONIC, Ranking: 51/260)
[25]	T.-Y. Hsieh, T.-H. Chen, and N.-C. Yang* (2017). "Matrix decompositions-based approach to Z-bus matrix building process for radial distribution systems." International Journal of Electrical Power & Energy Systems 89: 62-68. (SCI, EI, Impact Factor: 3.289, ENGINEERING, ELECTRICAL & ELECTRONIC, Ranking: 51/260)
[26]	M.-F. Guo, and N.-C. Yang* (2017). "Features-clustering-based earth fault detection using singular-value decomposition and fuzzy c-means in resonant grounding distribution systems." International Journal of Electrical Power & Energy Systems 93: 97-108. (SCI, EI, Impact Factor: 3.289, ENGINEERING, ELECTRICAL & ELECTRONIC, Ranking: 51/260)
[27]	N.-C. Yang* (Oct., 2016). "Three-Phase Harmonic Power Flow by Direct ZBUS Method for Unbalanced Radial Distribution Systems with Passive Power Filters Set." IET Gener Trans Distrib 10(13): 3211-3219. (SCI, EI, Impact Factor: 2.213, ENGINEERING, ELECTRICAL & ELECTRONIC, Ranking: 104/260)
[28]	N.-C. Yang*, and M.-D. Le (May, 2016). "Loop Frame of Reference based Harmonic Power Flow for Unbalanced Radial Distribution Systems." International Journal of Electrical Power and Energy Systems 77: 128-135. (SCI, EI, Impact Factor: 3.289, ENGINEERING, ELECTRICAL & ELECTRONIC, Ranking: 51/260)
[29]	N.-C. Yang* (2016). "Three-Phase Power Flow Calculations Using Direct ZBUS Method for Large-Scale Unbalanced Distribution Networks." IET Gener Trans Distrib 10(4): 1048-1055. (SCI, EI, Impact Factor: 2.213, ENGINEERING, ELECTRICAL & ELECTRONIC, Ranking: 104/260)
[30]	N.-C. Yang*, and M.-D. Le (2015). "Optimal design of passive power filters based on multi-objective bat algorithm and pareto front." Applied Soft Computing 35(0): 257-266. (SCI, EI, Impact Factor: 3.541, COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS, Ranking: 14/105)
[31]	N.-C. Yang*, and M.-D. Le (2015). "Multi-objective bat algorithm with time-varying inertia weights for optimal design of passive power filters set." IET Generation Transmission & Distribution 9(7): 644-654. (SCI, EI, Impact Factor: 2.213, ENGINEERING, ELECTRICAL & ELECTRONIC, Ranking: 104/260)
[32]	N.-C. Yang*, and W.-C. Tseng (2015). "Impact assessment of a hybrid energy-generation system on a residential distribution system in Taiwan." Energy and Buildings 91(0): 170-179. (SCI, EI, Impact Factor: 4.067, ENGINEERING, CIVIL, Ranking: 3/125)
[33]	N.-C. Yang*, and W.-C. Tseng (2015). "Adaptive Three-Phase Power Flow Solutions for Smart Grids with Plug-in Hybrid Electric Vehicles." International Journal of Electrical Power & Energy Systems 64: 1166-1175. (SCI, EI, Impact Factor: 3.289, ENGINEERING, ELECTRICAL & ELECTRONIC, Ranking: 51/260)
[34]	T.-H. Chen, E.-H. Lin, N.-C. Yang et al. (2013). "Building a friendly Environment for Renewable Energy Resources by Upgrading Primary Feeders from Normally Closed Loop to Mesh Arrangement." INTERNATIONAL JOURNAL of RENEWABLE ENERGY RESEARCH 3(3): 571-578.
[35]	N.-C. Yang* (2013). "Three-Phase Power Flow Calculations by Direct ZLOOP Method for Microgrids with Electric Vehicle Charging Demands." IET Gener Trans Distrib 7(9): 1002-1010. (SCI, EI, Impact Factor: 2.213, ENGINEERING, ELECTRICAL & ELECTRONIC, Ranking: 104/260)
[36]	T.-H. Chen, C.-H. Yang, and N.-C. Yang* (2013). "Examination of the definitions of voltage unbalance." International Journal of Electrical Power & Energy Systems 49: 380-385. (SCI, EI, Impact Factor: 3.289, ENGINEERING, ELECTRICAL & ELECTRONIC, Ranking: 51/260)
[37]	T.-H. Chen, V.-T. Tran*, N.-C. Yang et al. (2013). "Wind energy potential in Taiwan." Applied Mechanics and Materials 284-287: 1062-1066. (EI)
[38]	T.-H. Chen, E.-H. Lin, N.-C. Yang et al. (2013). "Multi-Objective Optimization for Upgrading Primary Feeders with Distributed Generations from Normally Closed-Loop to Meshed Arrangement." International Journal of Electrical Power and Energy Systems 45: 413-419. (SCI, EI, Impact Factor: 3.289, ENGINEERING, ELECTRICAL & ELECTRONIC, Ranking: 51/260)
[39]	T.-H. Chen, T.-Y. Hsieh, N.-C. Yang et al. (2013). "Evaluation of Advantages of an Energy Storage System using Recycled EV Batteries." International Journal of Electrical Power and Energy Systems 45: 264-270. (SCI, EI, Impact Factor: 3.289, ENGINEERING, ELECTRICAL & ELECTRONIC, Ranking: 51/260)
[40]	T.-H. Chen, L.-S. Chiang, and N.-C. Yang* (2012). "Examination of Major Factors Affecting Voltage Variation on Distribution Feeders." Energy and Buildings 55: 494-499. (SCI, EI, Impact Factor: 4.067, ENGINEERING, CIVIL, Ranking: 3/125)
[41]	N.-C. Yang*, and T.-H. Chen (2012). "Assessment of loss factor approach to energy loss evaluation for branch circuits or feeders of a dwelling unit or building." Energy and Buildings 48(0): 91-96. (SCI, EI, Impact Factor: 4.067, ENGINEERING, CIVIL, Ranking: 3/125)
[42]	N. C. Yang*, and T. H. Chen (2011). "Evaluation of maximum allowable capacity of distributed generations connected to a distribution grid by dual genetic algorithm." Energy and Buildings 43(11): 3044-3052. (SCI, EI, Impact Factor: 4.067, ENGINEERING, CIVIL, Ranking: 3/125)
[43]	N. C. Yang, and T. H. Chen (2011). "Dual Genetic Algorithm-Based Approach to Fast Screening Process for Distributed-Generation Interconnections." IEEE Trans. Power Delivery 26(2): 850-858. (SCI, EI, Impact Factor: 3.218, ENGINEERING, ELECTRICAL & ELECTRONIC, Ranking: 55/260)
[44]	T. H. Chen, and N. C. Yang* (2010). "Simplified annual energy loss evaluation method for branch circuits of a home or building." Energy and Buildings 42(12): 2281-2288. (SCI, EI, Impact Factor: 4.067, ENGINEERING, CIVIL, Ranking: 3/125)
[45]	T. H. Chen, and N. C. Yang* (2010). "Loop frame of reference based three-phase power flow for unbalanced radial distribution systems." Electric Power Systems Research 80(7): 799-806. (SCI, EI, Impact Factor: 2.688, ENGINEERING, ELECTRICAL & ELECTRONIC, Ranking: 73/260)
[46]	T. H. Chen, Q. Y. Pan, and N. C. Yang (2010). "Modeling and Analysis of a Single-Phase Distribution Transformer With Midtap on the Secondary Side." IEEE Trans. Power Delivery 25(3): 1580-1588. (SCI, EI, Impact Factor: 3.218, ENGINEERING, ELECTRICAL & ELECTRONIC, Ranking: 55/260)
[47]	T. H. Chen, and N. C. Yang (2009). "Three-phase power-flow by direct Z(BR) method for unbalanced radial distribution systems." IET Generation Transmission & Distribution 3(10): 903-910. (SCI, EI, Impact Factor: 2.213, ENGINEERING, ELECTRICAL & ELECTRONIC, Ranking: 104/260)
【研討會論文】
[1]	楊念哲, 陳星志, 謝廷彥 (2018). 基於笛卡爾座標分解型類牛頓法之不平衡輻射型配電網路三相電力潮流計算. 中華民國第39屆電力工程研討會.
[2]	楊念哲, 陳星志, 謝廷彥 (2018). 適用於不平衡輻射型配電網路之直角坐標分解型牛頓電力潮流. 中華民國第39屆電力工程研討會.
[3]	楊念哲, 柳冠宇, 陳星志, 謝廷彥 (2018). 考慮饋線電壓控制設備之分散型電源最大可併網容量評估研究. 中華民國第39屆電力工程研討會.
[4]	楊念哲, 張君琦, 郭謀發 (2018). 應用局部特徵尺度分解法於配電網接地故障分析及故障訊號特徵量提取. 中華民國第39屆電力工程研討會.
[5]	楊念哲, 張君琦, 郭謀發 (2018). 應用分塊時頻譜與卷積神經網絡於配電網高阻接地故障識別. 中華民國第39屆電力工程研討會.
[6]	楊念哲, 張君琦, 郭謀發 (2018). 應用局部特徵尺度分解法與支持向量機於配電網高阻接地故障識別. 中華民國第39屆電力工程研討會.
[7]	楊念哲, 劉上瑋, 曾崧庭, 曾威智 (2018). 適用於具被動電力濾波器配電系統之直接ZLoop法三相諧波電力潮流. 中華民國第39屆電力工程研討會.
[8]	楊念哲, 柳冠宇, 陳星志, 謝廷彥 (2018). 考量分散型電源之配電饋線電壓控制設備設置最佳成本效益研究. 中華民國第39屆電力工程研討會.
[9]	N.-C. Yang*, S.-T. Zeng, H.-C. Chen, T.-Y. Hsieh (2019). Three-Phase Four-Wire Harmonic Analysis based on ZBUS Power-Flow Solutions for Radial Distribution Systems. The 4th International Conference on Intelligent Green Building and Smart Grid. Yichang, China.
[10]	N.-C. Yang*, K.-Y. Liu, W.-C. Tseng, H.-C. Chen, T.-Y. Hsieh (2019). Cost and Benefit Optimization on Installation of Distribution Feeders Voltage Control Equipment considering Distributed Generations. Asian Conference on Sustainability, Energy & the Environment ACSEE 2019. Tokyo, Japan: 103-114.
[11]	N.-C. Yang*, K.-Y. Liu, W.-C. Tseng, H.-C. Chen, T.-Y. Hsieh (2019). Assessment of Maximum Permissible Capacity of Distributed Generations Connected to a Distribution Grid with Feeder Voltage Control Equipment. Asian Conference on Sustainability, Energy & the Environment ACSEE 2019. Tokyo, Japan: 91-101.
[12]	N.-C. Yang*, H.-C. Chen, W.-C. Tseng, T.-Y. Hsieh (2018). Matrix Decompositions-based Approach to Newton Power Flow Calculations for Microgrid Systems. 2018 IEEE 7th Global Conference on Consumer Electronics. Nara, Japan.
[13]	N.-C. Yang*, W.-C. Tseng, T.-Y. Hsieh, H.-C. Chen (2017). Analysis on Energy Use by Small- and Medium- Sized Energy Consumers: Energy Diagnostic Center at Yuan Ze University, Taiwan. 2017 IEEE 6th Global Conference on Consumer Electronics. Nagoya, Japan.
[14]	柳冠宇, 楊念哲, 謝廷彥, 陳星志 (2017). 配電系統分散型發電允許最大併網量主要影響因子之研究. 中華民國第38屆電力工程研討會.
[15]	簡瑞霖, 曾威智, 楊念哲 (2016). 電熱水耗電行為模型與特性分析. 中華民國第37屆電力工程研討會.
[16]	簡瑞霖, 曾威智, 楊念哲 (2016). 基於決策樹學習與離散粒子群演算法之電熱水瓶節能排程研究. 中華民國第37屆電力工程研討會.
[17]	劉上瑋, 楊念哲 (2016). 基於多目標教與學演算法結合柏拉圖前緣解之被動式電力濾波器最佳設計. 中華民國第37屆電力工程研討會.
[18]	劉上瑋, 楊念哲 (2016). 基於直接ZBUS法之三相諧波電力潮流分析. 中華民國第37屆電力工程研討會.
[19]	張文睿, 曾威智, 楊念哲 (2015). 校園建築照明系統升級改造工程之成本效益評估 中華民國第36屆電力工程研討會.
[20]	羅友銘, 楊念哲 (2015). 單相三線式變壓器數學模型與特性分析 中華民國第36屆電力工程研討會.
[21]	羅友銘, 楊念哲, 謝廷彥 (2015). 含單相三線式變壓器之微電網電力潮流分析技術 中華民國第36屆電力工程研討會.
[22]	羅友銘, 楊念哲 (2015). 含單相三線式變壓器之微電網短路故障分析技術. 中華民國第36屆電力工程研討會.
[23]	林冠榮, 楊念哲 (2014). 應用多目標基因演算法與柏拉圖前緣解於電動車充電站運轉狀態檢測之研究. 中華民國第35屆電力工程研討會.
[24]	林冠榮, 楊念哲 (2014). 應用多目標基因演算法與柏拉圖前緣解於電動車充電站設置之研究. 中華民國第35屆電力工程研討會(優秀論文獎).
[25]	劉上瑋, 林冠榮, 楊念哲 (2014). 智慧電動車充電站及充電樁之跨平台行動資訊系統開發. 中華民國第35屆電力工程研討會.
[26]	羅友銘, 楊念哲 (2014). 基於新型三相相位法之微電網不對稱短路故障電流分析. 中華民國第35屆電力工程研討會.
[27]	黎明唯, 劉上瑋, 楊念哲 (2014). 基於多目標蝙蝠演算法和柏拉圖前緣之最佳化被動濾波器設計. 中華民國第35屆電力工程研討會.
[28]	李偉豪, 楊念哲 (2014). 元智大學校園配電系統之耗能分析研究. 中華民國第35屆電力工程研討會.
[29]	N.-C. Yang, W.-J. Zeng, C.-H. Yu (2013). Development of an Assessment System for Power Consumption Behaviors of Electrical Home Appliances. The 34th ROC Symposium on Electrical Power Engineering: 744-749.
[30]	N.-C. Yang, W.-J. Zeng, H.-C. Chen (2013). Improved ZBUS Method based Three Phase Harmonic Power Flow Analysis for Radial Distribution Systems with Smart Electric Vehicles and Distributed Resources. The 34th ROC Symposium on Electrical Power Engineering: 1206-1211.
[31]	N.-C. Yang*, 蔡洪俊 (2012). 通用型高低壓配電電力潮流分析之建築耗能損失估算應用. The 33th ROC Symposium on Electrical Power Engineering: 2645-2649.
[32]	N.-C. Yang*, T.-H. Chen (2011). Discussion on the Existing Deterministic Approaches for Evaluating Maximum Permissible Capacity of Distributed Generations connected to a Smart Grid. The 32th ROC Symposium on Electrical Power Engineering: 90-97.
[33]	陳在相, 楊念哲*, 陳昆典, 黃郁文 (2009). 建築配電系統耗能分析與節能設計. 98年度節約能源論文發表會. 台電屏東區處，屏東，台灣: 403-416.
[34]	W.-C. Yang, T.-H. Chen, J.-D. Wu, N.-C. Yang* (2008). Operation of a meshed distribution system for the interconnection of distributed generations. The 29th ROC Symposium on Electrical Power Engineering. Tainan, Taiwan: 954-958.
[35]	陳在相, 楊念哲* (2008). 常用配電系統損失估算法準確度與適用條件之探討. 97年度節約能源論文發表會: 286-297.
[36]	C.-F. Chen, N.-C. Yang*, T.-H. Chen (2007). Research on the improvement of normally closed-loop distribution systems for grid-interconnection of distributed generations. Taiwan Wind Energy Association 第二屆學術研討會. Taipei, Taiwan: 152-157. (榮獲第二屆Taiwan Wind Energy Association 研討會優秀論文獎)
[37]	C.-C. Peng, N.-C. Yang*, T.-H. Chen (2007). Discussion on the major DG interconnection codes in USA. Taiwan Wind Energy Association 第二屆學術研討會. Taipei, Taiwan: 147-151.
[38]	T.-H. Chen, N.-C. Yang*, W.-C. Yang, Y.-F. Hsu, J.-S. Yang (2007). Study on the Requirements of Wind Turbine Interconnection of Taiwan. Taiwan Wind Energy Association 第一屆學術研討會. Taipei, Taiwan: 157-160.
[39]	T.-H. Chen, N.-C. Yang*, M.-S. Wang, Y.-F. Hsu, J.-S. Yang (2007). Study on the Requirements of Voltage Deviations of Wind Turbine Interconnection. Taiwan Wind Energy Association 第一屆學術研討會. Taipei, Taiwan: 134-139.
[40]	T.-H. Chen, N.-C. Yang*, J.-S. Yang, Y.-F. Hsu (2006). Study on the impact of short circuit capacity at PCC on the maximum DG integration capacity. The 27th ROC Symposium on Electrical Power Engineering. Hsin-Chu, Taiwan: OD.1.1.1-4.
[41]	T.-H. Chen, N.-C. Yang*, J.-S. Yang, Y.-F. Hsu (2006). Study on the accuracy and validity of existing deterministic approaches for the steady-state voltage deviation of grid connection of DG. The 27th ROC Symposium on Electrical Power Engineering. Hsin-Chu, Taiwan: PB2.2.1-4.
[42]	N.-C. Yang*, W.-C. Tseng, T.-Y. Hsieh (2016). Evaluation of Maximum Installed Capacity of Electric Scooter Charging Station for Microgrid in Yuan Ze University Campus. 2016 IEEE 5th Global Conference on Consumer Electronics. Kyoto, Japan.
[43]	N.-C. Yang*, W.-C. Tseng (2015). Evaluation of Energy Losses in Yuan Ze University Campus 2015 IEEE 4th Global Conference on Consumer Electronics. Osaka, Japan.
[44]	N.-C. Yang*, W.-C. Tseng, C.-H. Yu (2014). Examination of Power Consumption Behaviors of Electronic Office Equipment for Commercial Buildings. The Fourth Asian Conference on Sustainability, Energy & the Environment ACSEE 2014. Osaka, Japan: 209-222.
[45]	N.-C. Yang*, R. Tsaihong (2013). Applications of Sequential Power Flow Analysis for High and Low Voltage Distribution Systems to Energy Loss Evaluation for Dwelling Units or Buildings. The Third Asian Conference on Sustainability, Energy & the Environment ACSEE 2013. Osaka, Japan: 206-216.
[46]	M. Syai'In, K. L. Lian, N. C. Yang, T. H. Chen (2012). A distribution power flow using particle swarm optimization. 2012 IEEE Power and Energy Society General Meeting, PES 2012. San Diego, CA.
[47]	N.-C. Yang*, T.-H. Chen (2012). A Review on Evaluation of Maximum Permissible Capacity of Distributed Generations connected to a Smart Grid. in Proc. International Conference on Machine Learning and Cybernetics (ICMLC). Xi'an, China. (EI)
[48]	T.-H. Chen, N.-C. Yang* (2009). Discussion on the Deterministic Approaches for Evaluating the Voltage Deviation due to Distributed Generation. in Proc. 8th WSEAS International Conference on APPLIED COMPUTER & APPLIED COMPUTATIONAL SCIENCE (ACACOS '09). Hangzhou, China: 456-460. (EI)
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[50]	T.-H. Chen, M.-S. Wang, N.-C. Yang* (2007). Impact of Distributed Generation on Voltage Regulation by ULTC Transformer using Various Existing Methods. in Proc. 2007 WSEAS International Conference on Power System. Beijing, China: 158-163. (EI)
【專利、專書、技術報告】
[1]	楊念哲、陳敬炘、曾威智，太陽光電發電預測系統及方法 (Prediction System and Method for Solar Photovoltaic Power Generation)-中華民國專利，2020年，發明第I684927號。
[2]	楊念哲、陳星志、李偉豪、曾威智、魏榮宗，配電系統與其配電管理方法 (Electricity distribution system and distribution management methods thereof)-中華民國專利，2016年，發明第I536696號。
[3]	楊念哲、曾威智、林冠榮，微電網最大裝設充電站容量評估方法及其系統 (Maximum charge station evaluation method in microgrid and system thereof)-中華民國專利，2016年，發明第I553997號。
[4]	楊念哲等 (2018). 植基於直接ZBUS法之智慧電網三相四線式諧波電力潮流及其電力損失評估應用研究, 科技部，期中報告，MOST106-2221-E-011-169-MY2，國立臺灣科技大學，台北.
[5]	楊念哲等 (2018). 離島機組排程與即時調度技術研究, 行政院原子能委員會核能研究所，期末報告，MOST 107-3113-E-042A-001-CC2，國立臺灣科技大學，台北.
[6]	楊念哲等 (2018). 發展用戶測分散式能源與用電管理之需量聚合服務平台, 國家型科技計畫，期末報告，MOST 107-3113-E-011-001，國立臺灣科技大學，台北.
[7]	楊念哲等 (2018). 高占比再生能源區域配電網之案例研析計畫, 財團法人工業技術研究院，期末報告，國立臺灣科技大學，台北.
[8]	楊念哲等 (2018). 國際再生能源併聯規範蒐集與法律修訂建議, 財團法人工業技術研究院，期末報告，國立臺灣科技大學，台北.
[9]	楊念哲等 (Oct.，2017). 基於多目標教與學演算法與柏拉圖前緣解之微型電網被動式電力濾波器最佳化設計, 科技部專題研究計畫成果報告，MOST 105-2221-E-155-031，元智大學，中壢.
[10]	楊念哲等 (2017). 產業中小能源用戶診斷服務中心(EDC), 經濟部，期末報告，元智大學，中壢.
[11]	楊念哲等 (2017). 國際再生能源併聯規範蒐集與法律修訂建議, 財團法人工業技術研究院，期末報告，元智大學，中壢.
[12]	楊念哲等 (2017). 配電饋線設備控制操作策略機制之研析, 財團法人工業技術研究院，期末報告，元智大學，中壢.
[13]	楊念哲等 (Oct.，2016). 基於二元樹演算法之智慧電網三相多線式電力潮流分析技術及其應用研究, 科技部專題研究計畫成果報告，MOST104-2221-E-155-059，元智大學，中壢.
[14]	楊念哲等 (Jan.，2016). 智慧電熱水瓶節能排程之雲端專家系統開發, 科技部專題研究計畫成果報告，MOST104-2623-E-155-008-ET，元智大學，中壢.
[15]	楊念哲等 (2016). 產業中小能源用戶診斷服務中心(EDC), 經濟部，期末報告，元智大學，中壢.
[16]	楊念哲等 (2016). 國內配電網電壓品質控制機制之探討與分析, 財團法人工業技術研究院，期末報告，元智大學，中壢.
[17]	楊念哲等 (2016). 國際再生能源併聯規範蒐集與指導方針法律修訂建議, 財團法人台灣綜合研究院，期末報告，國立臺灣科技大學，台北.
[18]	楊念哲等 (2015). 物聯網電動載具管理服務平台技術開發-系統場域建置及管理技術-微電網最大裝設充電站容量評估, 經濟部產學研價值創造計畫，期末報告，元智大學，中壢.
[19]	楊念哲等 (2015). 國內現行再生能源併聯法規之妥適性分析, 財團法人工業技術研究院，期末報告，國立臺灣科技大學，台北.
[20]	楊念哲等 (2015). 再生能源併聯技術指導方針(草案)資料更新與法律建議, 財團法人台灣綜合研究院，期末報告，國立臺灣科技大學，台北.
[21]	楊念哲等 (2015). 開放異質聯網服務平台與智慧低碳應用技術研發計畫, 財團法人資訊工業策進會，期末報告，元智大學，中壢.
[22]	楊念哲等 (2014). 先進感知平台與綠能應用系統技術計畫, 財團法人資訊工業策進會，期末報告，元智大學，中壢.
[23]	楊念哲等 (Dec.，2014). 我國因應智慧電網技術發展趨勢與高占比再生能源併網運作之對策與電網優化研究, 財團法人台灣綜合研究院，期末報告，國立臺灣科技大學，台北.
[24]	楊念哲等 (Nov.，2014). 再生能源併網技術規範資料收集分析, 財團法人工業技術研究院，期末報告，國立臺灣科技大學，台北.
[25]	楊念哲等 (Nov.，2014). 再生能源併網技術適用性分析, 財團法人工業技術研究院，期末報告，國立臺灣科技大學，台北.
[26]	楊念哲等 (June，2014). 校園節能減碳典範運行計畫(I), 國科會專題研究計畫成果報告，NSC102-3113-P-155-001，元智大學，中壢.
[27]	楊念哲等 (Sep.，2014). 智慧電動車充電站及充電樁之跨平台行動資訊系統開發, 國科會專題研究計畫成果報告，NSC100-2218-E-155-005，元智大學，中壢.
[28]	楊念哲等 (Sep.，2013). 考量智慧電動車與智慧電網之配電系統三相諧波電力潮流分析技術研究, 國科會專題研究計畫，NSC101-2221-E-155-054，元智大學，中壢.
[29]	楊念哲等 (Oct.，2012). 北部低碳永續再生能源推動專案計畫, 新北市政府環境保護局，元智大學，中壢.
[30]	楊念哲等 (Sep.，2012). 智慧電網決策用機率式三相電力潮流分析技術, 國科會專題研究計畫成果報告，NSC100-2218-E-155-005，元智大學，中壢.
[31]	楊念哲等 (Feb.，2012). 智慧型混合能源獨立供電/市電併聯系統計畫(III), 財團法人中技社，期末報告，元智大學.
[32]	楊念哲等 (May，2011). 電動車充電對電力品質及電力供應影響之研究, 台灣電力公司，期末報告，TPC-546-4102-9904，國立臺灣科技大學，台北.
[33]	楊念哲等 (May，2010). 整合多種分散型資源之微型電網研究-子計畫三：整合多種分散型資源之微型電網規劃設計研究(2/3), 國科會專題研究計畫成果報告，NSC 97-2221-E-011-150-MY3，國立臺灣科技大學，台北.
[34]	楊念哲等 (May，2010). 整合多種分散型資源之微型電網研究-總計畫(2/3), 國科會專題研究計畫成果報告，NSC 97-2221-E-011-148-MY3，國立臺灣科技大學，台北.
[35]	楊念哲等 (May，2009). 整合多種分散型資源之微型電網研究-子計畫三：整合多種分散型資源之微型電網規劃設計研究(1/3), 國科會專題研究計畫成果報告，NSC 97-2221-E-011-150-MY3，國立臺灣科技大學，台北.
[36]	楊念哲等 (May，2009). 整合多種分散型資源之微型電網研究-總計畫(1/3), 國科會專題研究計畫成果報告，NSC 97-2221-E-011-148-MY3，國立臺灣科技大學，台北.
[37]	楊念哲等 (May，2009). 饋線自動化系統維護運轉準則及維護制度研究, 台灣電力公司，期末報告，研發產字2930號、建能產字016號，國立臺灣科技大學，台北.
[38]	楊念哲等 (May，2007). 因應分散型發電之配電系統設計與運轉研究-子計畫一：因應分散型發電之配電系統設計研究(1/2), 國科會專題研究計畫成果報告，NSC 95-2221-E-011-207-MY2，國立臺灣科技大學，台北.
[39]	楊念哲等 (May，2007). 因應分散型發電之配電系統設計與運轉研究-總計畫(1/2), 國科會專題研究計畫成果報告，NSC 95-2221-E-011-206-MY2，國立臺灣科技大學，台北.
[40]	楊念哲等 (March，2007). 風力發電機與市電系統併聯之衝擊及其分析與模擬技術之研究(III), 國科會與經濟部能源局/石油基金管理委員會-能源科技學術合作研究計畫，期末報告，NSC 95-ET-7-011-004-ET，國立臺灣科技大學，台北.
[41]	楊念哲等 (Jan.，2007). 分散型電源併入配電系統之電壓控制與防止單獨運轉研究, 台灣電力公司，期末報告，TPC-546-4102-9401A，國立臺灣科技大學，台北.
[42]	楊念哲等 (Sep.，2006). 因應分散型發電之配電系統設計與運轉研究(I)-子計畫一：因應分散型發電之配電系統設計研究, 國科會專題研究計畫成果報告，NSC 94-2213-E-011-070，國立臺灣科技大學，台北.
[43]	楊念哲等 (Sep.，2006). 因應分散型發電之配電系統設計與運轉研究(I)-總計畫, 國科會專題研究計畫成果報告，NSC 94-2213-E-011-076，國立臺灣科技大學，台北.
[44]	楊念哲等 (Jan.，2006). 風力發電機與市電系統併聯之衝擊及其分析與模擬技術之研究(II), 國科會與經濟部能源局/石油基金管理委員會-能源科技學術合作研究計畫，期末精簡報告，NSC94-ET-7-011-003-ET，國立臺灣科技大學，台北.
[45]	楊念哲等 (May，2005). 配電饋線電壓品質控制技術之調查研究, 台灣電力公司，期末報告，研發建字2114號、電機建字0197號，國立臺灣科技大學，台北.
[46]	楊念哲等 (March，2005).風力發電機與市電系統併聯之衝擊及其分析與模擬技術之研究(I), 國科會與經濟部能源局/石油基金管理委員會-能源科技學術合作研究計畫，期末報告，NSC 93-ET-7-011-007-ET，國立臺灣科技大學，台北.
[47]	T.-H. Chen, W.-C. Yang, Y.-D. Cai, N.-C. Yang (2010). Voltage Variation Analysis of Normally Closed-Loop Distribution Feeders Interconnected with Distributed Generation. Distributed Generation. IN-TECH. (ISBN: 978-953-307-046-9)