The DeciZebro is a six-legged autonomous robot is being developed by the Zebro team at the TU Delft. The robot should become autonomous and be able to "feed" itself like a real animal. Currently, it is only possible to charge the DeciZebro using a laptop charger. The goal is to allow the robot to charge itself without human intervention using a solar panel and a wireless charging pad. This thesis is part of a project that needs to develop a power management system and a battery management system that make it possible to charge the batteries wirelessly and by using a solar panel that will be placed on top of the DeciZebro. This thesis focuses on the design choices of the part of the project that handles the laptop charger, wireless charger a...
Within the field of agriculture a tremendous technological advancement is taking place, as an increa...
This paper describes a prototype mobile robot which will harvest energy when its own power reserve i...
In this thesis we will walk you through the design choices we made in designing a battery management...
The development of swarm robotics strives for resilience, a key factor in this is energy supply. Wit...
In this thesis it is described how a Battery System and an Output System are designed. This design i...
The Zebro is a six legged autonomous robot, designed to be deployed in swarms. Charging the battery ...
The ZEBRO is a fully autonomous six-legged robot designed for swarm behaviour and is the size of an ...
Abstract—This paper focus on the design and construction of an optimization charging system for Li–P...
This project presents a hybrid system implementing the use of solar panels and batteries to power a ...
One of the emerging platforms for swarm robotics research today is the KILOBOTS robot. Studying swar...
This paper is about a robotic vehicle aims on the design of efficient charging system of batteries b...
The focus of this thesis was to design an energy management system for Marsokhod, a six-wheeled Mar...
PFC del programa Erasmus elaborat a Nottingham Trent UniversityMerlin System Robotics has given the ...
This paper focuses on the design and development of an optimization charging system for Li–Po batter...
The focus of this thesis was to design an energy management system for Marsokhod, a six-wheeled Mart...
Within the field of agriculture a tremendous technological advancement is taking place, as an increa...
This paper describes a prototype mobile robot which will harvest energy when its own power reserve i...
In this thesis we will walk you through the design choices we made in designing a battery management...
The development of swarm robotics strives for resilience, a key factor in this is energy supply. Wit...
In this thesis it is described how a Battery System and an Output System are designed. This design i...
The Zebro is a six legged autonomous robot, designed to be deployed in swarms. Charging the battery ...
The ZEBRO is a fully autonomous six-legged robot designed for swarm behaviour and is the size of an ...
Abstract—This paper focus on the design and construction of an optimization charging system for Li–P...
This project presents a hybrid system implementing the use of solar panels and batteries to power a ...
One of the emerging platforms for swarm robotics research today is the KILOBOTS robot. Studying swar...
This paper is about a robotic vehicle aims on the design of efficient charging system of batteries b...
The focus of this thesis was to design an energy management system for Marsokhod, a six-wheeled Mar...
PFC del programa Erasmus elaborat a Nottingham Trent UniversityMerlin System Robotics has given the ...
This paper focuses on the design and development of an optimization charging system for Li–Po batter...
The focus of this thesis was to design an energy management system for Marsokhod, a six-wheeled Mart...
Within the field of agriculture a tremendous technological advancement is taking place, as an increa...
This paper describes a prototype mobile robot which will harvest energy when its own power reserve i...
In this thesis we will walk you through the design choices we made in designing a battery management...