| Peer Reviewed Papers |
| (1) |
Label-free technology for traceable identification of single green pepper through features in UV fluorescent images, Computers and Electronics in Agriculture, 211, 107960, Takemoto, T., Huang, Z.*, Omwange, K. A., Saito, Y., Konagaya, K., Suzuki, T., Ogawa, Y., & Kondo, N., 2023 |
| (2) |
Monitoring strawberry (Fragaria × ananassa) quality changes during storage using UV-excited fluorescence imaging, Journal of Food Engineering, 353, 111553, Huang, Z., Omwange, K.A., Saito, Y., Kuramoto, M., Kondo, N., 2023 |
| (3) |
Macroscopic and microscopic characterization of fluorescence properties of multiple sweet pepper cultivars (Capsicum annuum L.) using excitation-emission matrix and UV induced fluorescence imaging, Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, 288, 122094, Huang, Z., Takemoto, T., Omwange, K. A., Saito, Y., Kuramoto, M., Kondo, N., 2023. |
| (4) |
UV excited fluorescence image-based non-destructive method for early detection of strawberry (Fragaria × ananassa) spoilage, Food Chemistry, 368, 130776, Huang. Z., Omwange, K. A., Tsay, L. W. J., Saito, Y., Maai, E., Yamazaki, A., Nakano, R., Nakazaki, T., Kuramoto, M., Suzuki, T., Ogawa, Y., & Kondo, N.,2022. |
| (5) |
Static and Dynamic Evaluation of Acoustic Positioning System Based on TDMA & FDMA for Robots Operating in a Greenhouse, International Journal of Agricultural and Biological Engineering, 15(5), 28?33, Tsay, L. W. J., Shiigi, T., Zhao, X., Huang, Z.*, Shiraga, K., Suzuki, T., Ogawa, Y., Kondo, N., 2022. |
| (6) |
An acoustic based local positioning system for dynamic UAV in GPS-denied environments, Applied Engineering in Agriculture, 39(3): 315-323, Tsay, L.W.J., Shiigi, T., Zhao, X., Huang, Z., Nakanishi, H.; Suzuki, T.; Ogawa, Y.; Kondo, N.,2023. |
| (7) |
A Sound-Based Positioning System with Centimeter Accuracy for Mobile Robots in a Greenhouse Using Frequency Shift Compensation, Computers and Electronics in Agriculture, 187, 106235, Huang, Z.; Shiigi, T.; Tsay, L.W.J.; Nakanishi, H.; Suzuki, T.; Ogawa, Y.; Kondo, N.,2021. |
| (8) |
Position and orientation measurement system using spread spectrum sound for greenhouse robots,Biosystems Engineering,198,50-62, Huang, Z., Jacky, T. L. W., Zhao, X., Fukuda, H., Shiigi, T.*, Nakanishi, H., Suzuki, T., Ogawa, Y., & Kondo, N.,2020. |
| (9) |
A Noise Tolerant Spread Spectrum Sound-Based Local Positioning System for Operating a Quadcopter in a Greenhouse,Sensors,20(7),1-15、Huang, Z.*, Tsay, L. W. J., Shiigi, T., Zhao, X., Nakanishi, H., Suzuki, T., Ogawa, Y., & Kondo, N.,2020. |
| (10) |
Noise Tolerance Evaluation of Spread Spectrum Sound-based Positioning System for a Quadcopter in a Greenhouse,IFAC-PapersOnLine,52(30),239?242,Huang, Z.*, Wai Jacky, T. L., Zhao, X., Shiigi, T., Nakanishi, H., Suzuki, T., & Kondo, N.,2019,EI. |
| (11) |
Greenhouse Based Orientation Measurement System using Spread Spectrum Sound,IFAC-PapersOnLine,51(17), 108?111,Huang, Z.*, Fukuda, H., Wai Jacky, T. L., Zhao, X., Habaragamuwa, H., Shiigi, T., Suzuki, T., & Kondo, N. 2018. |
| (12) |
9. Is spread spectrum sound a robust local positioning system for a quadcopter operating in a greenhouse? Chemical Engineering Transactions,58, 829?834,Huang, Z.*, Ono, M., Shiigi, T., Suzuki, T., Harshana, H., Nakanishi, H., & , Kondo.,2017. |
