We are a leading UK technology company providing Managed IT Services Warwick for the world’s largest public and private sector organizations. We bring together industry leading technology partnerships and specialized knowledge that enables end-users to work seamlessly, wherever they are located.
As a research-intensive university, the University of Warwick’s approach to data management is typical of those seen at many UK universities. It was driven by the government’s policy and funding landscape, examples of good practice at other institutions, support from a central national body (the UK Digital Curation Centre) and learning from other universities’ experiences.
Hybrid Workplace
If you want to offer your employees flexibility, work-life balance, and a high level of productivity, the hybrid workplace is the right model for you. This type of work arrangement allows employees to choose their own schedules and locations while still getting the benefits of in-person collaboration.
The key to a successful hybrid workplace is to ensure that all remote and on-site teams have seamless connectivity. This can be achieved through cloud-based services, stronger security infrastructures, and enhanced collaboration tools.
Hybrid workers often report higher levels of satisfaction with their work, so this work-life balance can be a huge boost to the overall company culture. Creating trust in the workplace also plays an important role in establishing a productive working environment.
Whether your company is a large or small one, implementing a hybrid work model can be a huge success for everyone involved. But it’s important to get it right.
5G
5G is a new generation of wireless technology that brings faster speed, higher data capacity and negligible latency. It’s designed to support a wide range of applications and uses that require rapid response times, such as the industrial Internet of Things (IIoT), mission-critical devices and products.
It also allows networks to ‘slice’ their physical network into multiple virtual networks based on their use-case. This means that different slices can be used depending on the bandwidth needs of a business, for example.
For example, a health clinic could set up a network that would be isolated from other Internet traffic, to ensure patient privacy. Or, a manufacturing plant could rent a slice of the network to control autonomous machines.
BT and the University of Warwick will work with industry partners to test how 5G can help in a number of areas, including health and transport. Trials already have involved remote monitoring of patients using an ambulance, and a demonstration will see a connected autonomous pod exchanging live data feeds with other vehicles in the vicinity.
Virtual Reality
Virtual Reality (VR) is a technology that allows users to experience a digital environment that simulates a physical world. It’s a form of computer simulation and is used for training, entertainment, education and research.
For example, universities can use VR to let students experience environments that would be impossible to replicate in a classroom setting, such as the inside of an erupting volcano or the Great Barrier Reef. This enables students to get a closer understanding of their subjects and helps them to retain information longer.
A key benefit of VR is that it creates a psychological reaction called a sense of presence. This is achieved by synchronizing the user’s head and eye movements to their response in the virtual environment.
For this reason, VR is used in healthcare, education and tourism. It’s also a valuable tool for product development and manufacturing verification. Companies can improve their product quality and reduce errors or rework, saving time and money.
Augmented Reality
Augmented Reality superimposes digital information on top of the user’s real-world environment. It is different from virtual reality, which completely immerses the user in a simulated environment.
AR can be delivered in a variety of devices including smartphones, tablets and glasses. It also uses sensors such as cameras, accelerometers and GPS to identify objects in the world around a user.
In addition, AR can provide a more immersive experience with interactive elements such as haptic feedback or other sensory projections. This type of technology is often used in consumer applications like the popular Pokémon Go mobile game.
The primary function of AR is to accurately superimpose digital information on the user’s physical environment. To do this, a computer program must recognize the object and layer the appropriate digital information. This process can be achieved using either markers or a more sophisticated form of shape recognition, which compares the object’s shape to a catalog of 3-D models.