This research work presents the design of a mobile robot that monitors the care and integrity of children from the first year of life. The monitoring is done with a surveillance system that uses artificial vision to identify the environment and with help of the SLAM system, the robot can move without any difficulty since the robot itself will be able to map and locate in the environment. The presence sensors also contribute to the robot's displacement, as they work together with the SLAM system to measure the robot's distance from objects to avoid collisions. The robot will have two drives, one manual and the other automatic; the choice will be made through an app interface with which the robot's movement can be controlled; this application can also display the webcam video in real time. In addition to this, there is an alert system in which when the robot detects risk or danger to the c...

The present investigation has designed a therapeutic crane that helps patients who have lower body problems. As an alternative to the lack of equipment for physical rehabilitation, which leads to the reincorporation of people with reduced mobility to their activities of daily life, the objective proposed to solve the problem is the design and construction of a therapeutic crane with a system to monitor the rehabilitation process. The design and the solution were carried out based on the needs presented by the clinical areas in the implementation of rehabilitation technology that facilitates and promotes a better therapeutic process for patients. In addition, this therapeutic crane has functional duality, it is used for gait training with the support of the bodyweight that allows walking upright; as well as helping patients with cognitive impairment in the standing process; also, it has t...

The mechanical design of an exoskeleton for wrist rehabilitation is an innovative solution improve the effectiveness of therapy and the quality of life of patients. This scientific paper presents the mechanical design process of the ergonomic and lightweight exoskeleton, as well as the results obtained in performance and efficacy tests in wrist rehabilitation. The exoskeleton consists of a mechanical structure that is attached to the patient´s hand by means of an adhesive velcro and is equipped with two servomotors which allow a precise and controlled movement. The test results demonstrate the main mobilities and sufficient resistance of the exoskeleton during the established rehabilitation exercises. It also features precise turning angles with no margino f error. This mechanical design can be used in hospitals, clinics and even at home, supervised by a remote specialist.