According to an InMedica report from IHS, the global electrocardiogram (ECG) management system market is expected to grow by 18% in 2011-2016. The hospital managed to increase efficiency, reduce costs, and improve diagnostic results by linking ECG equipment to a central database, which facilitated the expansion of this market. The global ECG management system market in 2016 is expected to grow from USD 118 million in 2011 to USD 139 million.
The ECG management system can automate the processing, storage and distribution of ECG, Holter and stress data. The rise of ECG has played an important role in the process of integrating diagnosis results into IT systems in hospitals. IT integration has been rapidly adopted in other medical fields, but the heart disease diagnosis market lags behind in this regard. This situation is changing as hospitals pay more attention to IT integration to improve heart disease management processes.
DICOM brings life
The Digital Imaging and Communication Standard (DICOM) is playing an important role in promoting the integration of ECG management into IT systems. ECG management systems are increasingly required to interact with larger cardiovascular information systems (CVIS) and image storage and transmission systems (PACS).
DICOM enables the ECG management system to connect to a larger central system, thereby improving diagnosis and patient management. DICOM is developing steadily in developed markets such as North America and Western Europe.
Indeed, the emergence of DICOM in the North American market indicates that heart disease treatment is moving towards a complete management system, and all data can be stored in PACS, just like a radiology department.
ECG is increasingly popular in other regions
In the Western European market, the development of the ECG management system has been the strongest in Northern Europe, Belgium, the Netherlands, Luxembourg and Germany. In these regions, the use of electronic medical records (EMR) is relatively high. These areas are dedicated to the digitization of medical care and the centralization of diagnosis results, and the ECG management system plays an important role in it.
The adoption of Eastern Europe and the Middle East and Africa has driven its further growth in the EMEA market. In these regions, an important trend is that healthcare services should be integrated with Western countries, so efforts are being made to organize and centralize these services and reduce expenditures.
the core issue
The diagnostic cardiology market hopes to increase the efficiency of the workflow and shorten the time patients spend in the hospital. Therefore, the hospital is developing related systems to manage cost control, focusing on patient throughput and reducing waiting time. Under such circumstances, the adoption of the ECG management system will play a key role in the process of centralizing healthcare services.
What is a wireless AC controller? What does it do?
Wireless AC controller is a kind of network device, such as the AC100/150 of Fengrunda, which can be used to centrally control and manage wireless aps. It is the core of a wireless network and is responsible for managing all wireless aps in the wireless network. AP management includes: delivering configuration, modifying related configuration parameters, RF intelligent management, and access security control.
Why use a wireless controller, and what exactly does it do?
In fact, the role of the wireless controller is to play a gateway function between the WLAN and the Internet (on the router), and the data from different access points are aggregated and accessed to the Internet. The role of an access point (AP) is to complete wireless access, and it can control user access through network flags.
The role of wireless controllers
1, Flexible networking mode and excellent scalability
The AP does not need to be directly connected to the AC, so that the AP can be deployed in any place that needs to be covered through the network, such as you deploy an AP in each employee's home, and then connect to the wireless controller inside the enterprise through the VPN, you can expand the wireless network of the enterprise to the family of each enterprise member.
2, intelligent RF management functions, automatic deployment and fault recovery
Through the dedicated RF management module, we can initially estimate the AP deployment according to the user's architectural design drawing, and can calculate the average bandwidth of the wireless terminal, the coverage between AP and AP in the actual debugging process.
3. Centralized network management
All the configuration of the wireless network can be completed by configuring the wireless controller. For example, enable, manage, and maintain all AP devices and mobile terminals, including all functions such as radio wave spectrum, wireless security, access authentication, mobile roaming, and access users.
4, powerful roaming function support
The wireless controller uses AP as the boundary combined with fast RF management system, which greatly reduces the connection time between wireless client and AP, and thus realizes the function of fast roaming.
5. Load balancing
AP and wireless controller systems can distribute wireless users or terminals to nearby aps within the coverage area of an AP, ensuring the number of each wireless terminal or the sum of AP bandwidth transmission or the upper limit of each wireless terminal bandwidth.
6, wireless terminal positioning, rapid fault location and intrusion detection
Wireless controllers can track and locate the location of wireless terminals, such as wirelessly connected computers, PDAs and Wi-Fi mobile phones.
7, powerful access and security policy control
At present, the wireless system supports authentication of 802.1, WEB authentication, MAC, SSID, VPN, etc., and supports various encryption modes such as WEP, WPA, WPA-PSK, WPA2, etc., and all configurations can be configured globally through the wireless controller.
8, Qos support
AP and wireless switching systems can limit the maximum bandwidth of a user's wireless connection within each user's privileges. For different IP services, the system can also define different QoS queues through the wireless switch module. For example, for wireless voice applications, SIP and RTP protocols can be set in the high queue, while common applications such as http and ftp can be set in the low queue.
The wireless controller AC is more advanced than the AP, plays the role of manager in the wireless network, and the wireless controller AC also acts as a client to complete a series of functions in the wired network (such as authentication, authentication, etc.). However, wireless controller AC is not a WLAN device specified in the 802.11 protocol family, but as a supplement to the protocol in specific applications, and its price far exceeds that of ordinary access point (AP) devices.
In small-scale wireless networks that use only a few aps, it is not economical to use expensive wireless controller AC equipment. However, if the number of wireless aps is large, more than 20 can be used AC controller.
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