Abstract
In recent years, Artificial Neural Networks (ANN) have become a standard in robotic control. However, a significant drawback of large-scale ANNs is their increased power consumption. This becomes a critical concern when designing autonomous aerial vehicles, given the stringent constraints on power and weight. Especially in the case of blimps, known for their extended endurance, power-efficient control methods are essential. Spiking neural networks (SNN) can provide a solution, facilitating energy-efficient and asynchronous eventdriven processing. In this paper, we have evolved SNNs for accurate altitude control of a non-neutrally buoyant indoor blimp, relying solely on onboard sensing and processing power. The blimp’s altitude tracking performance significantly improved compared to prior research, showing reduced oscillations and a minimal steady-state error. The parameters of the SNNs were optimized via an evolutionary algorithm, using a Proportional- Derivative-Integral (PID) controller as the target signal. We developed two complementary SNN controllers while examining various hidden layer structures. The first controller responds swiftly to control errors, mitigating overshooting and oscillations, while the second minimizes steady-state errors due to nonneutral buoyancy-induced drift. Despite the blimp’s drivetrain limitations, our SNN controllers ensured stable altitude control, employing only 160 spiking neurons.
Original language | English |
---|---|
Title of host publication | IMAV 2024: Proceedings of the 15th annual International Micro Air Vehicle Conference and Competition |
Subtitle of host publication | September 16-20, 2024 Bristol, United Kingdom |
Editors | T. Richardson |
Pages | 72-78 |
Publication status | Published - 2024 |
Event | International Micro Air Vehicle Conference - Bristol, United Kingdom Duration: 16 Sept 2024 → 20 Sept 2024 Conference number: 15 |
Conference
Conference | International Micro Air Vehicle Conference |
---|---|
Abbreviated title | IMAV 2024 |
Country/Territory | United Kingdom |
City | Bristol |
Period | 16/09/24 → 20/09/24 |