Wherever technical know-how at a high standard is needed, development engineers are deployed. This could be at the manufacturer’s or on-site at customers, where specific requirements require individual solutions. The development engineer can offer support to the manufacturer, as well as sales/distributors and integrators. Engineers who specialize in research and development are considered to be the most versatile engineers.
StriveAV’s development engineers are responsible for developing new products and improving existing systems. Some integrators and distributors have turned special customer requests into product ideas, which has allowed them to become manufacturers. Although engineers may not be involved in the design of new products, they can be product managers for the manufacturer. They manage the development of a product or division and decide what their responsibility should be. An engineer in product management is the link between the customer and management. The development department ensures that both parties have the best possible experience.
Research and development engineers are often responsible for the company’s economic success. They observe trends in technology and the competition. The prototypes are created or simulated using software, and then extensively tested. Development engineers work closely with product, assembly, and product management during product development. Engineers can move up to management or project management.
Engineers in development have excellent technical knowledge, creativity and a keen eye for calculating costs. Research and development engineers usually have degrees in mechanical, plant engineering, mechatronics, or electrical engineering. As well, graduates in production technology, automation technology and physics can be employed as development engineers in AV.
Engineers must be able to take responsibility for their work, be proactive, and have a clear vision of the goals they are pursuing. This is where analytical thinking and methodical work are important. Clear and precise technical relationships can be helpful in communication with engineers, and even those who aren’t technically proficient. It is also important to quickly grasp these relationships and communicate effectively with them. Good English skills are essential as you will often be working internationally. Engineers often work in teams so it is important to have a good level of communication.
You should also be proficient in using simulation programs and current CAD drawing tools. A development engineer must have solid programming skills these days. The environment will dictate how the parts are procured from suppliers, and what prices they can be charged. The engineer is ultimately responsible for finding the most cost-effective and efficient solution.
An engineer working in research and development earns an average of $ 50,000 to $ 70,000 per year.
BYOD (bring your personal device) is a very popular trend in the workplace. According to statistics, 90% of U.S. workers use their smartphones at work, making them happier. BYOD can be integrated into AV presentation systems in many ways to make it more accessible for a wider range of employees and to communicate company information more effectively.
BYOD has become a major trend in the workplace. It has changed how companies think about technical ideas. As shown by the ways BYOD can be used in AV presentation systems, the BYOD paradigm already has a significant impact on information exchange in the workplace. Businesses and employees should be able to see positive changes in technology that will make it easier for them to present to a wider audience.
External parties are not allowed to use BYOD devices that are integrated into the in-house WLAN. Planners require two network interfaces in order to enable WLAN-based systems to work and protect against data theft and external attacks.
They could also work independently in terms of hardware, which would allow for the creation of two networks. This would allow the employee to move freely in the company’s network using their own components. External users could also be connected via a WLAN network that is independent from the company network. However, this network would only be available to employees who have the necessary equipment. This would mean that no addresses that could affect the company network should be disclosed.
Caution: Large amounts of data
The necessary infrastructure can be seen separately from the company’s internal networks structure.
A table-top HDMI interface or the more common VGA interface with HDBaseT transmission elements is sufficient. If, for example, the transmission is wireless or cross-room via network components, then the company’s IT will only be of interest.
It would be extremely helpful if BYOD manufacturers offered two network cards, as I mentioned. The transmission of large amounts or native sound and image signals is influenced by the fact that there are often large amounts of data. These cases require the use of an infrastructure separate from IT. For example, a larger system such as the one described above. A matrix of 64 x 64 inputs, outputs and to be fully mapped in the network. B. will require a large system.
Uncompressed transmissions are not possible. This is because it requires the H.264 compression standard or the upcoming H.265 compression standards. Even in this scenario, the data amounts are still enormous. Anyone who creates such a system and then lets the company network run it can quickly see that data transmission can’t be done at a satisfactory speed or security. This is a sign that the path towards a 100 percent merger of AV and IT technology will be easier to see in the near-term.