Browsing by Subject "Inventory"

Sort by: Order: Results:

Now showing items 1-3 of 3
  • Pisa, Pedro T.; Landais, Edwige; Margetts, Barrie; Vorster, Hester H.; Friedenreich, Christine M.; Huybrechts, Inge; Martin-Prevel, Yves; Branca, Francesco; Lee, Warren T. K.; Leclercq, Catherine; Jerling, Johann; Zotor, Francis; Amuna, Paul; Al Jawaldeh, Ayoub; Aderibigbe, Olaide Ruth; Amoussa, Waliou Hounkpatin; Anderson, Cheryl A. M.; Aounallah-Skhiri, Hajer; Atek, Madjid; Benhura, Chakare; Chifamba, Jephat; Covic, Namukolo; Dary, Omar; Delisle, Helene; El Ati, Jalila; El Hamdouchi, Asmaa; El Rhazi, Karima; Faber, Mieke; Kalimbira, Alexander; Korkalo, Liisa; Kruger, Annamarie; Ledo, James; Machiweni, Tatenda; Mahachi, Carol; Mathe, Nonsikelelo; Mokori, Alex; Mouquet-rivier, Claire; Mutie, Catherine; Nashandi, Hilde Liisa; Norris, Shane A.; Onabanjo, Oluseye Olusegun; Rambeloson, Zo; Saha, Foudjo Brice U.; Ubaoji, Kingsley Ikechukwu; Zaghloul, Sahar; Slimani, Nadia (2018)
    Objective: To carry out an inventory on the availability, challenges, and needs of dietary assessment (DA) methods in Africa as a pre-requisite to provide evidence, and set directions (strategies) for implementing common dietary methods and support web-research infrastructure across countries. Methods: The inventory was performed within the framework of the " Africa's Study on Physical Activity and Dietary Assessment Methods" (AS-PADAM) project. It involves international institutional and African networks. An inventory questionnaire was developed and disseminated through the networks. Eighteen countries responded to the dietary inventory questionnaire. Results: Various DA tools were reported in Africa; 24-Hour Dietary Recall and Food Frequency Questionnaire were the most commonly used tools. Few tools were validated and tested for reliability. Face-to-face interview was the common method of administration. No computerized software or other new (web) technologies were reported. No tools were standardized across countries. Conclusions: The lack of comparable DA methods across represented countries is a major obstacle to implement comprehensive and joint nutrition-related programmes for surveillance, programme evaluation, research, and prevention. There is a need to develop new or adapt existing DA methods across countries by employing related research infrastructure that has been validated and standardized in other settings, with the view to standardizing methods for wider use.
  • Wang, Yunsheng; Kukko, Antero; Hyyppä, Eric; Hakala, Teemu; Pyörälä, Jiri; Lehtomäki, Matti; El Issaoui, Aimad; Yu, Xiaowei; Kaartinen, Harri; Liang, Xinlian; Hyyppä, Juha (Springer Singapore, 2021)
    Abstract Background Current automated forest investigation is facing a dilemma over how to achieve high tree- and plot-level completeness while maintaining a high cost and labor efficiency. This study tackles the challenge by exploring a new concept that enables an efficient fusion of aerial and terrestrial perspectives for digitizing and characterizing individual trees in forests through an Unmanned Aerial Vehicle (UAV) that flies above and under canopies in a single operation. The advantage of such concept is that the aerial perspective from the above-canopy UAV and the terrestrial perspective from the under-canopy UAV can be seamlessly integrated in one flight, thus grants the access to simultaneous high completeness, high efficiency, and low cost. Results In the experiment, an approximately 0.5 ha forest was covered in ca. 10 min from takeoff to landing. The GNSS-IMU based positioning supports a geometric accuracy of the produced point cloud that is equivalent to that of the mobile mapping systems, which leads to a 2–4 cm RMSE of the diameter at the breast height estimates, and a 4–7 cm RMSE of the stem curve estimates. Conclusions Results of the experiment suggested that the integrated flight is capable of combining the high completeness of upper canopies from the above-canopy perspective and the high completeness of stems from the terrestrial perspective. Thus, it is a solution to combine the advantages of the terrestrial static, the mobile, and the above-canopy UAV observations, which is a promising step forward to achieve a fully autonomous in situ forest inventory. Future studies should be aimed to further improve the platform positioning, and to automatize the UAV operation.
  • Wang, Yunsheng; Kukko, Antero; Hyyppä, Eric; Hakala, Teemu; Pyörälä, Jiri; Lehtomäki, Matti; El Issaoui, Aimad; Yu, Xiaowei; Kaartinen, Harri; Liang, Xinlian; Hyyppä, Juha (2021)
    BackgroundCurrent automated forest investigation is facing a dilemma over how to achieve high tree- and plot-level completeness while maintaining a high cost and labor efficiency. This study tackles the challenge by exploring a new concept that enables an efficient fusion of aerial and terrestrial perspectives for digitizing and characterizing individual trees in forests through an Unmanned Aerial Vehicle (UAV) that flies above and under canopies in a single operation. The advantage of such concept is that the aerial perspective from the above-canopy UAV and the terrestrial perspective from the under-canopy UAV can be seamlessly integrated in one flight, thus grants the access to simultaneous high completeness, high efficiency, and low cost.ResultsIn the experiment, an approximately 0.5ha forest was covered in ca. 10min from takeoff to landing. The GNSS-IMU based positioning supports a geometric accuracy of the produced point cloud that is equivalent to that of the mobile mapping systems, which leads to a 2-4cm RMSE of the diameter at the breast height estimates, and a 4-7cm RMSE of the stem curve estimates.ConclusionsResults of the experiment suggested that the integrated flight is capable of combining the high completeness of upper canopies from the above-canopy perspective and the high completeness of stems from the terrestrial perspective. Thus, it is a solution to combine the advantages of the terrestrial static, the mobile, and the above-canopy UAV observations, which is a promising step forward to achieve a fully autonomous in situ forest inventory. Future studies should be aimed to further improve the platform positioning, and to automatize the UAV operation.