Разработка робота сферической формы
The paper describes the development of a robotic platform for buildings. The versatility of the platform allows its applying in various fields of human activity, both in the remote control and autonomous regime. The main steps involved in creating a robotic platform are described; its characteristics and working results are given.
The article is devoted to the development of an intelligent system, based on the Arduino hardware and software platform. It is an element of the Smart House, which at the core lays the concept of IoT (Internet of Things). The device is designed for continuous automated monitoring condition of the aquarium, with the ability to remotely inform his owner. Monitoring and support of the life processes is carried by parameters such as feed supply, control of the temperature set, control of illumination. Versatility and modularity of the platform makes it possible to use it for any type of aquarium with the ability to expand functionality by adding the necessary sensors or metrics. The basic stages of designing of the device are described, its characteristics and the results of its work are given.
The aim of this work is to increase the efficiency of the business process of checking clients of financial organizations by using solutions in the field of robotics. These technologies are considered as an alternative to the classic manual routine check of borrowers, which is carried out both at the initial request of clients to the Bank, and on a periodic basis, according to the legislation of the Russian Federation. The article contains a detailed analysis of the "robotic process automation" method for credit organizations in the framework of organizing the process of financial monitoring of borrowers. This technology allows you to automate standard employee actions performed in a standard graphical user interface (GUI). The article discusses the problems that arise when implementing RPA technologies in banks, the main reasons for their occurrence, as well as methods for solving them. The possible software implementation of the proposed methods using the Automation Anywhere software product and integration of the results into the MS Dynamics AX system are shown. The cost estimation of the effectiveness of this method is made, and positive non-economic effects are considered. In conclusion, we describe the main prospects for the development of RPA technology in the banking sector, possible integration with other software solutions used in credit institutions.
Unrealibility of radio communication is an important issue for wireless sensor networks. Message retransmission is a common remedy for data loss in such networks. Present paper is devoted to research of number of retransmissions necessary for succesful message deliver. We introduce a simple method for determinig this number based on statistical analysis of data loss.Our method was implemented in the form of protocol for data gathering from working node to the main node. The protocol was tested on a pair of nodes built on Arduino board and NRF24 transciever. Our experiments show that proposed method reduces data loss significantly.