Interview with Paul Norine, Principal, IP Design Group
Peck: To what extent is adaptation of wireless technology a consideration in long-term care facilities?
Norine: Although nursing homes don't have the extent of monitoring systems and equipment that hospitals do, they do have a growing number of wireless-based systems. The biggest challenge, and opportunity, posed by this is the growing emphasis on resident mobility and independence. The same goes for assisted living, where wireless access for resident monitoring, nurse call, and the Internet can work well in achieving the appropriate environment. One problem, however, is that, as the technology grows, there may be multiple frequencies to deal with and, with that, a growing potential for interference. Yet, when it comes to design of new or renovated facilities, communications systems are often treated as a follow-on, left to the owners to deal with on their own.
That's why we strongly recommend the development at the outset of a formal frequency plan, or RF master plan-a detailed layout of existing and anticipated wireless systems and how they will be used. All users-facility management, staff, clinicians, and others-should be brought into these discussions so that the results are practical for everyone. Communications should, in fact, be considered as the facility's "fourth utility," along with mechanical, electrical, and plumbing systems.
Peck: Where can administrators get guidance for developing such a plan? Would vendors be of help?
Norine: Possibly. However, there's always the chance that one system will be put forth as "the solution" and to avoid that, it would be helpful to turn to a consultant who is familiar with the technology and how it might relate to the long-term care environment.
Peck: What should management expect of this consultant and the frequency-planning process?
Norine: The result should be a master plan involving all communications systems, including wireless, hardwired and, if wireless, the specific frequencies anticipated and the security requirements. At some point there should be a walk-through of the facility to check for potential dead spots or "dark" spots, especially those that might interfere with telemetry or tracking systems. These dead spots can be caused by several factors, including finishes on walls and the steel used in construction, and it is critical that antennas, or access points, be placed appropriately to negate them.
Peck: What is an example of optimal location of access points?
Norine: An example would be a PDA-based or PC-based system for clinical record keeping and transmission. To keep the transmission speeds up, you would plan wireless access points located on-center at 65-foot intervals. Actually, though, there is a relatively new, and better, approach to designing access to all wireless systems. It is called a "leaky coaxial broadband cable system," or wireless utility.
This is essentially a "backbone" system providing connection of all wireless systems at a centralized location and also providing flexibility for continued growth of these systems with minimal difficulty. The system has a bandwidth ranging from 300 to 2,500 megahertz, accommodating virtually all frequencies, including those for enhanced cell phone coverage, two-way radios, and the like. It is more expensive than installing multiple stand-alone systems as wireless technologies are purchased, but some cost is offset in reduced labor costs from eliminating those installations. As I mentioned, this is relatively new technology, and the overall costs are anticipated to come down.
Peck: What about the security concerns of wireless?
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