Virtual reception can manage multiple visitors at once, big or small organisations, some with multiple entrances that may require more than one kiosk. Businesses that require that a health and safety form is read and signed. A photo may be required, a printed lanyard all of which is catered within the fantastic Virtual Reception offering.
Industrial Bots can be used for various purposes including Delivery of materials. Delivery Bots provides an automated service, bringing food or other items bought online to the end-customer. Composed of an area for the parcels they deliver, mounted on wheels, equipped with cameras and sensors, they are autonomous in their functioning.
Steps to create the prototype : 1. Implement a dependable and effective system that can accurately identify counterfeit currency notes through cutting-edge technologies such as machine learning, image recognition, and haptic feedback. 2. Develop a smartphone application that uses image recognition technology to help blind or visually challenged individuals identify the denomination of banknotes, thereby promoting financial inclusion and independence. 3. Incorporate tactile indicators on banknotes that are easy to recognize and differentiate by blind people. 4. Promote public awareness campaigns to educate citizens about the risks of using counterfeit currency and how to identify genuine banknotes.
The aim of the study is to evaluate the integration process of this virtual reality application into authentic learning environments in terms of student opinions. Case study methodology was used in the study. The results show that this technology provides useful and permanent learning, practice opportunity to students, and this technology increases the motivation and engagement to the courses as well. It has been pointed out by the students that this technology should be used as a practice environment after the theoretical courses in authentic learning environments because this technology can save time and prevent cost lost in addition to avoiding risk factors. The physical environment of the classes can be improved and wireless virtual reality goggles can be used for using this technology, more effectively and efficiently as a course support material in authentic learning environments. The aim of the study is to evaluate the integration process of this virtual reality application into authentic learning environments in terms of student opinions. Case study methodology was used in the study. The results show that this technology provides useful and permanent learning, practice opportunity to students, and this technology increases the motivation and engagement to the courses as well. It has been pointed out by the students that this technology should be used as a practice environment after the theoretical courses in authentic learning environments because this technology can save time and prevent cost lost in addition to avoiding risk factors. The physical environment of the classes can be improved and wireless virtual reality goggles can be used for using this technology, more effectively and efficiently as a course support material in authentic learning environments.
CUDA – enabled systems are required with 16GB storage for generating high quality art images. The proposed GAN-based Detection of Objects (GAN-DO) framework is not restricted to any particular architecture and can be generalized to several deep neural network (DNN) based architectures. The resulting deep neural network maintains the exact architecture as the selected baseline model without adding to the model parameter complexity or inference speed.
Automation of Industrial Robotic Arms can significantly increase productivity and efficiency in manufacturing processes. This can lead to faster and more accurate manufacturing processes resulting in cost savings and increased profits. This can result in a safer working environment and reduce the risk of workplace injuries. Interventions made: • Make customizable GUI • Hand shake signal between Arduino and Python • Partially completed customizable GUI
In the event of a fire, the primary objective of using drones is to gather situational awareness, which can be used to direct the efforts of the firefighters in locating and controlling hot spots. Just like urban fires, forest fires to require monitoring so that firefighters know what they are dealing with. Drones are increasingly used in firefighting operations for various tasks, such as providing real-time situational awareness, mapping the fire perimeter, and identifying hot spots.
The concept of an automated infant care room is an innovative solution to help busy parents take care of their infants more efficiently. This project proposes a system that can detect the baby’s activity and function accordingly, saving parents time and energy. In today’s fast paced world, working parents often struggle to balance their work and personal lives. Taking care of an infant requires a lot of time and attention, which can be difficult for busy parents. The automated infant care room is designed to help these parents by providing an efficient and reliable solution to take care of their babies. The entire space is configured to detect the baby’s activity and respond accordingly. This is achieved using sensors and a microcontroller. The microprocessor’s sensors are programmed to sense the environment in the room and keep track of the baby’s behavior. Based on the conditions set by the user, the system will function accordingly. The user has access to all the data collected by the system, which will include information on the baby’s sleep patterns, feeding times, and other important metrics. This data will be displayed on a user interface that is easy to understand and navigate. An automated infant carer room is a novel concept that has the potential to revolutionize the way busy parents take care of their infants. By using sensors and a microcontroller, the system can detect the baby’s activity and function accordingly, saving parents time and energy while providing the best care for their babies.
With the growing number of vehicles on the road most nations are adopting an intelligent transport system (ITS) for handling issues like traffic flow density, queue length, the average speed of the traffic, and total vehicles passing through a point in a specific time interval. A camera is used to monitor the vehicles and to record the feed for image processing. Aurdino Uno and Raspberry Pi 4 are used for computing and processing. The students are in the process of applying for copyright for this project.
Water pollution and the presence of harmful contaminants post significant threats to the public health worldwide. To address this issue, advanced water treatment technologies are continuously being developed. In recent years, the integration of silver nano particles(AgNPs) and activated charcoal has gained considerable attention due to their exceptional properties in water purification.
