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Conceptual Design Based on Modular Platforms for a Prototype of a Functional Growth Chamber for Cuttings in Controlled Agriculture

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Publicado en:Designs vol. 9, no. 4 (2025), p. 86-115
Autor principal: Jara-Villagrana, María Fernanda
Otros Autores: Olvera-Olvera, Carlos Alberto, Villagrana-Barraza Santiago, Castro-Tapia, Salvador, Ibarra-Delgado, Salvador, Gómez-Rodríguez, José Ricardo, Sandoval-Aréchiga Remberto, Rodríguez-Abdalá, Víktor I, Díaz-Flórez Germán
Publicado:
MDPI AG
Materias:
Agriculture
Heuristic
Technology transfer
Irrigation
Adaptability
Environmental monitoring
Design
Modularity
Block diagrams
Automation
Hydroponics
Conceptual design
Prototypes
Chambers
Reconfiguration
Product development
Acceso en línea:Citation/Abstract
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Resumen:Agricultural research and propagation systems often suffer due to a lack of access to affordable, adaptable, and well-structured technological solutions. Traditional plant growth devices typically rely on ad hoc construction, which limits their scalability, reuse, and adaptability. This study employs a user-centered conceptual design methodology based on product platform development and modular architecture to design a growth chamber for plant cuttings. The approach followed three main phases: (i) identification and classification of user needs, (ii) functional modeling of the base system and its variants, and (iii) architectural modularization through heuristic principles. Interviews with researchers yielded 55 functional requirements, of which 26 were defined as essential. Functional models were developed for both a base system and two variant systems incorporating alternative irrigation and sensing technologies. Heuristic analysis identified independent modules, such as irrigation, lighting, environmental monitoring, and control. Subsequently, block diagrams were used to translate functional logic into spatially coherent conceptual designs. The resulting architecture supports modular integration, reconfiguration, and scalability for diverse experimental needs. This work demonstrates that structured design methodologies, which are commonly used in industrial contexts, can be effectively applied in agricultural research settings to produce solutions that are versatile, low-cost, and have enduring value, offering a pathway for innovation, reproducibility, and technology transfer in resource-limited environments.
ISSN:2411-9660
DOI:10.3390/designs9040086
Fuente:Engineering Database