This paper presents a cost-effective framework for the prototyping of vision-based quadrotor multi-robot systems, which core characteristics are: modularity, compatibility with different platforms and being flight-proven. The framework is fully operative, which is shown in the paper through simulations and real flight tests of up to 5 drones, and was demonstrated with the participation in an international micro-aerial vehicles competition3 where it was awarded with the First Prize in the Indoors Autonomy Challenge. The motivation of this framework is to allow the developers to focus on their own research by decoupling the development of dependent modules, leading to a more cost-effective progress in the project. The basic instance of the framework that we propose, which is flight-proven with the cost-efficient and reliable platform Parrot AR Drone 2.0 and is open-source, includes several modules that can be reused and modified, such as: a basic sequential mission planner, a basic 2D trajectory planner, an odometry state estimator, localization and mapping modules which obtain absolute position measurements using visual markers, a trajectory controller and a visualization module.
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机译:本文为基于视觉的四旋翼多机器人系统原型提供了一种经济高效的框架,其核心特征是:模块化,与不同平台的兼容性以及经过飞行验证。该框架是完全可操作的,在本文中通过对多达5架无人机的模拟和实际飞行测试进行了展示,并通过参加了国际微型飞机竞赛 3 进行了演示。在室内自主挑战赛中获得一等奖。该框架的动机是通过使依赖模块的开发脱钩,从而使开发人员能够专注于自己的研究,从而在项目中取得更具成本效益的进步。我们提出的框架的基本实例已通过具有成本效益的可靠平台Parrot AR Drone 2.0进行了飞行验证,并且是开源的,其中包括几个可以重用和修改的模块,例如:基本顺序任务计划器,基本的2D轨迹计划器,里程计状态估计器,定位和制图模块,这些模块使用视觉标记,轨迹控制器和可视化模块获得绝对位置测量值。
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