RF KNOWLEDGE THAT SAVES LIVES in Java

Printer Universal Product Code version A in Java RF KNOWLEDGE THAT SAVES LIVES
RF KNOWLEDGE THAT SAVES LIVES
UPC-A Supplement 2 Decoder In Java
Using Barcode Control SDK for Java Control to generate, create, read, scan barcode image in Java applications.
(TRANSEC), and ad hoc networking. CTRS meets coalition needs for gateways to interconnect legacy users. This use case and the next complement each other in humanitarian relief operations.
Encoding UPC A In Java
Using Barcode drawer for Java Control to generate, create GTIN - 12 image in Java applications.
6.5 RF KNOWLEDGE THAT SAVES LIVES In October 2003, UCSD announced WISARD, the Wireless Internet Information System for Medical Response in Disasters [166]. WISARD replaces the felt pen and whiteboard of triage (e.g., in a humanitarian relief operation) with digital triage using RF identi cation (RFID) tags. Some RFID tags measure vital signs when attached to a nger. Among the motivations cited by project director Leslie Lenert was the recent scenario in which the Russian government used a gaseous agent to disable the terrorists in a Moscow theater. More than 100 of their hostages died. According to Lenert, medical personnel later reported that most deaths were due to lack of vital signs monitoring at the scene and an inability to organize care to determine who was breathing and who wasn t. Immediate application of the RFID tags would enable digital triage, hopefully saving lives. Lenert characterizes problems with current eld care where there are mass casualties as in Figure 6-8. Victims ee, some get dramatically better while others become dramatically worse; responders have trouble coordinating; tags are lost; clinical data is not available for the aid giver, triage, or surgical team; and specialized equipment is hard to locate, power, or operate when
Recognizing UPC A In Java
Using Barcode decoder for Java Control to read, scan read, scan image in Java applications.
Problems with Current Field Care
Create Barcode In Java
Using Barcode printer for Java Control to generate, create barcode image in Java applications.
Victims flee before decon causing secondary exposure (public, hospitals) Detection of change in status difficult (30% initial mistriage) 1st responder status uncertain *Many may become victims Most severely ill not always transported first *Destinations difficult to track Tags lost, clinical info incomplete/missing Hospital resource information incomplete
Decode Barcode In Java
Using Barcode recognizer for Java Control to read, scan read, scan image in Java applications.
Field Treatment Transport station Station
GS1 - 12 Creator In C#
Using Barcode drawer for VS .NET Control to generate, create UPC-A Supplement 5 image in .NET framework applications.
UCSD MEDICINE SCHOOL OF
UPC-A Generator In Visual Studio .NET
Using Barcode drawer for ASP.NET Control to generate, create UPCA image in ASP.NET applications.
FIGURE 6-8 CR can enable digital triage, overcoming RF problems with eld care. UCSD. Used with permission.
Draw UPC Code In Visual Studio .NET
Using Barcode printer for Visual Studio .NET Control to generate, create Universal Product Code version A image in .NET framework applications.
RADIO-DOMAIN USE CASES
Making UCC - 12 In VB.NET
Using Barcode printer for Visual Studio .NET Control to generate, create UPC-A Supplement 2 image in VS .NET applications.
needed. How could CR enable such a vision of digital triage The entities of the use case may be expressed in RXML as in Expression 6-9. Expression 6-9 Disaster Relief Entities <Abstractions> <Scene> <Disaster> <Earthquake/> <Tsunami/> <Severe-weather/> </Disaster> </Scene> <Scene> <Disaster> <People> <Casualties> <Dead/> <Injured> <Minor-injury/> <Serious-injuries/> <Critically-injured/> </Injured> <Seriously-ill/> </Casualties> <Relief-personnel> <NGO/> <Medical/> <Sustenance/> <Infrastructure/> <Military/> </Relief-personnel> <Indigents/> </People> </Disaster> </Scene> </Abstractions> Sustenance relief personnel provide food, water, and other supplies. Infrastructure relief personnel reconstruct roads, bridges, housing, and the like. Military relief personnel sent from other countries assist with disaster recovery. <NGO/> are nongovernmental organizations like the International Red Cross and Red Crescent. In this taxonomy, there are just three kinds of people: <Casualties/>, <Relief-personnel/>, and <Indigents/>. These are the actors or <Entities/>. The behaviors of medical personnel, casualties, and indigents with respect to medical attention are the focus of the use case. RFID tags provide the raw data; iCRs locate the tags and exchange information about tag location and patient status via their ad hoc CWN. Expression 6-10 RF Entities in the Spectrum Scene
DataMatrix Generation In Java
Using Barcode drawer for Java Control to generate, create Data Matrix 2d barcode image in Java applications.
<Scene> <Abstractions> <RF> <RA> <Spectrum-plan> </RA> <RF-devices> <Transmitters/> <Receivers/> <Transceivers/> <CWPDAs/> <Transponders> <RFID/> <Transponders/> </RF-devices> <RF-environment> <Signals/> <Noise/> </RF-environment> </RF> </Abstractions> </Scene> RFID tags come in many avors. The ontological primitives of Expression 6-10 describe them as <Transponder/> entities in a RF scene that includes regulatory authority (<RA/>), RF devices, and a radio propagation environment of signals and noise. RFID tags for digital triage from different suppliers may have different air interfaces, sensors, and data storage and transfer capabilities. RFID tags of different national origin may be brought to a given humanitarian relief operation. Since radio spectrum management differs by region of the world, country, or political subdivision, RFID tags will be incompatible with each other s home RF networks, creating RFID bedlam.
Paint Code 128 In Java
Using Barcode printer for Java Control to generate, create Code 128C image in Java applications.
RF KNOWLEDGE THAT SAVES LIVES
Bar Code Drawer In Java
Using Barcode encoder for Java Control to generate, create barcode image in Java applications.
Envisioned iCR behaviors that mitigate these challenges, for more ef cient medical assistance, are as follows: 1. The iCR RFID base stations probe newly arriving RFID tags to discover their air interfaces, registering them and their capabilities into the <Scene/>. 2. The iCRs form an ad hoc network to track locations of the unpowered transponder RFID tags. 3. AACRs monitor emissions and advise RAs to reallocate interfering radio emissions away from RFID tag frequencies. 4. AACRs learn the priority of different content (e.g., nominal vital signs versus values that are out of safe medical norms), prioritizing the data ow from unsafe RFID tags to the medical teams. 5. AACRs allocate the more reliable physical layer RF <Paths/> to higher priority data to reduce the GoS and QoS of less essential data, enhancing net QoI by buffering the less critical data for queued delivery or for retrieval by a medical team when and where needed (versus delivering the data to a display that is not being monitored by medical staff). 6. When new types of RFID tags appear on the scene, the AACRs determine their capabilities and limitations sharing this with medical teams using a medical XML. Technologies like XML enable future RFID tags to express their abilities using open-standard medical ontologies. Privacy concerns may dictate the adoption of a privacy system similarly based on an open architecture standard such as PKI. The CWN could segregate RFID tags of a given type to a geographical subdivision of the disaster area to limit co-channel interference. The CWN members could mutually agree on a speci c AACR to serve as the hub for the automatic coordination of wireless spectrum among AACRs and legacy radios. Criteria for the hub iCR would include the number, types, and exibility of its RF access, the processing capability to handle multiple RFID channels in real time, enhanced antennas, longer endurance power supplies, and better physical access of the lead medical teams. The image-capable cell phone is already nding quasimedical uses. For example, researchers at Tokyo University [167] have developed a sales-support system for door-to-door cosmetics sales based on skin-image grading. SkinCRM (Skin Customer Relationship Management) analyzes the customer s skin from a picture taken by the salesperson s cell phone. Skin grade is assigned by rules generated by data mining a baseline of grades given by human skin-care experts. Skin-CRM uses a cellular phone with a camera, email software, and a web browser. The skin picture is sent to the analysis system by email. The picture is analyzed by the Skin-CRM server, resulting in a web page plus an email advising of the results within minutes. Salespeople browse the results on their cell phone, including skin grade and
Encoding UPC Shipping Container Symbol ITF-14 In Java
Using Barcode creation for Java Control to generate, create EAN - 14 image in Java applications.
UPC Symbol Creator In Visual Basic .NET
Using Barcode encoder for .NET Control to generate, create UCC - 12 image in .NET applications.
Barcode Printer In C#
Using Barcode creation for Visual Studio .NET Control to generate, create bar code image in VS .NET applications.
Bar Code Creator In .NET
Using Barcode printer for VS .NET Control to generate, create bar code image in VS .NET applications.
EAN-13 Supplement 5 Reader In Visual Studio .NET
Using Barcode scanner for Visual Studio .NET Control to read, scan read, scan image in VS .NET applications.