VPD-Centric Cascading Control with Neural Network Optimization for Energy-Efficient Climate Management in Controlled Environment Agriculture
Andrii Vakhnovskyi
- 发表年份
- 2026
- 访问权限
- 开放获取
摘要
Conventional climate control in Controlled Environment Agriculture (CEA) uses independent PID loops for temperature and humidity, creating cross-coupling conflicts that waste 20-40% of HVAC energy. We propose a cascading architecture that elevates Vapor Pressure Deficit (VPD) from a monitored metric to the primary outer-loop control variable. A 7-3-3 neural network optimizer selects energy-minimal temperature-humidity setpoints along the VPD constraint surface, feeding inner PID loops that drive HVAC actuators. Lyapunov stability analysis guarantees bounded PID gains. Deployment across 30+ commercial facilities in 8 U.S. climate zones over 7+ years demonstrates 30-38% HVAC energy reduction, 68-73% improvement in VPD stability, and 60-67% faster disturbance recovery compared to independent PID baselines.
关键词
相关论文
面向学习与规划的并行可微可达性:具有认证神经动力学与控制器的系统
Keyi Shen, Glen Chou
2026
人工智能增强的智能焊接岛:基础模型革新制造业
Xiwei Wu, Wei Wu, Qiqi Chen 等 9 位作者
Robotics and Computer-Integrated Manufacturing · 2026
基于深度强化学习和动态图神经网络的多任务机器人调度代理
Hedi Boukamcha, Anas Neumann, Monia Rekik 等 6 位作者
Robotics and Computer-Integrated Manufacturing · 2026
基于微调与AAS增强检索的LLM驱动自动化DFA评估
Jiaxin Liu, Xiaofeng Zhou, Suyang Yu 等 8 位作者
Robotics and Computer-Integrated Manufacturing · 2026