LILIN door station comes with high performing intercom feature which makes it easy to identify and communicate visitors
LILIN, video surveillance systems manufacturer, will showcase security vertical solutions at CPSE 2015

LILIN, a manufacturer of video surveillance systems, will participate at the 15th China Public Security Expo (CPSE) from October 29th to November 1st at the Shenzhen Convention and Exhibition Center in Shenzhen, China (LILIN Booth# 1B24). We will be showcasing LILIN’s latest product line up from frontend advanced IP surveillance camera products to backend Navigator VMS platform and Network Video Recorders (NVRs), which include the new 4K Ultra HD Auto Focus camera, intercom door station, 120fps high frame rate camera, and also showcasing what LILIN is able to provide for specific vertical solutions to your unique challenges – from retail, commercial building management, city surveillance, banking, to residential premises.

LILIN intercom door station for home and business security

LILIN door station comes with high performing intercom feature which makes it easy to identify and communicate visitors, and enables remote entry system from VMS platform or directly from your mobile device. The door station provides exceptional video resolution at 30fps in 1080p with high dynamic range (HDR) of 100dB and echo-free 2-way audio communications with visitors. The IP55 water-proof unit offers reliable identification of visitors 24/7 for both outdoor and indoor use. LILIN intercom door station offers you effective entry management and identification for home and business.

LILIN 4K UHD IP camera for day/night security

LILIN day/night 4K Ultra HD (UHD) Auto Focus IP camera with a weather-proof sleek enclosure and 35-meter IR illuminator enhances High Definition (HD) images by providing 4 times HD pictures with beautifully natural detail and astonishing saturated colours. Built-in with Auto Focus feature to automatically focus the camera from a distant location, which eases the process on installation and helps you effectively position the camera at the right focus angle in a matter of seconds. The full featured 4K UHD Auto Focus IP camera produces a powerful output housed in a discreet form factor, which is perfect for themed and architectural environments.

LILIN UFG1122 IP camera with H.264 compression & 120 fps

With real time H.264 and Motion JPEG compression technology, extra smooth video quality with resolution up to 120 frames per second at 1080P is secured. The UFG1122 is able to seize every moment with the ability to capture all detail with crystal clear resolution outputs. Featuring HDR (high dynamic range) mode and IR-cut filter, is able to put images together into one shot that brings out details in both the shadows and the highlights. 120fps camera is suitable for the most demanding surveillance requirements, i.e. banking industry, casino applications, railway system, and freeway traffic.

LILIN automation partners

The integration of LILIN IP products with major automation systems were launched – we currently partner with Control4, Crestron, Savant, Schideron, and Fermax, to bring seamless interoperability of LILIN IP products to many automation systems.

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How soon will access control cards become extinct and why?
How soon will access control cards become extinct and why?

Since the advent of the physical security industry, access control has been synonymous with physical cards, whether 125 kHz ‘prox’ cards or the newer smart card alternatives. However, other credentials have also come on the scene, including biometrics and even smart phones. Some of these choices have distinct cost and security advantages over physical cards. We asked this week’s Expert Panel Roundtable: How soon will the access control card become extinct and why? 

Addressing the Internet Of Things (IoT) and challenges in device design using a comprehensive approach
Addressing the Internet Of Things (IoT) and challenges in device design using a comprehensive approach

As the number of connected devices increases worldwide, the ways that they are being used, designed, and tested have also expanded. The rise of connected devices is demanding engineers to harness the power of the internet of things, which is expected to hit 28 billion by 2025. A comprehensive approach to device design is needed more than ever to address the challenges that this rapid growth will bring. Why engineers should be using IoT technology in product design The demand for devices designed to use the Internet of Things (IoT) technology is increasing as more industries are finding expanded ways to put them into use. Industries such as healthcare, automobiles, and agriculture are becoming more dependent on cloud capabilities and are therefore in need of new devices able to connect to it. Due to this rise in demand, an increasing amount of devices are delivering a multitude of benefits both to consumers and companies. However, this new wave of products has led to a growing list of challenges for engineers as they are forced to address IoT tech in regards to connectivity, regulations, longevity, and security. Ways to use IoT in the development process Engineers are facing these new challenges along with the normal pressure of deadlines and test considerations. By approaching all of these issues from a comprehensive point-of-view, the solutions become clearer and new device capabilities can be born. Let’s look at the challenges individually as well as possible solutions for them. Improving connectivity IoT enables data to be transferred between infrastructure, the cloud, and devices, making the process smooth  Because IoT is based around connection, it’s no surprise that the primary challenge for engineers to overcome is the improvement of connectivity between devices. IoT enables data to be transferred between infrastructure, the cloud, and devices, so making this process as smooth as possible is crucial. The main challenges involved with connectivity have to do with development and product testing while meeting industry standards and best practices. Additionally, many companies lack the necessary equipment and technology to develop new IoT devices, which makes it difficult to create scalable prototypes and test new products. Suggested solutions To address the issue of not having the expertise and necessary tools for testing, we suggest outsourcing the prototyping and evaluation process instead of attempting to tackle this in-house. By doing this, you’re able to free up resources that would otherwise be needed for expensive equipment and qualified staff. Helping comply with regulations When working with devices that are connected across the world, there is a complex web of regulations and conformance standards that can lead to challenges for engineers. The necessity of complying with these regulations while also pushing to meet deadlines can be burdensome and lead to an increase in production time and expenses. Failure to comply with global and regional laws, as well as system and carrier requirements, can lead to fines and costly setbacks. This type of failure can destroy a company’s reputation on top of causing financial losses, often leading to the loss of business. Suggested solutions By testing the IoT device design and components early, engineers can address any pre-compliance issues that may arise. During the early stages of development, we suggest using scalable and automated test systems readily available in the marketplace. Improved communication with other devices New challenges arise as new devices hit the market and existing technologies are redesigned to offer a better experience In the rapidly growing number of connected devices, new challenges will arise as new devices hit the market and existing technologies are redesigned to offer a better user experience. This rapid growth in devices will lead to congested networks leading to the necessity of devices being able to function in the midst of increased traffic and interference. Failure to do this will lead to delayed responses which could prove to be fatal. Suggested solutions The best solution for this issue is found in the evaluation process and supporting test methods that the Institute of Electrical and Electronics Engineers (IEEE) published in the American National Standard for Evaluation of Wireless Coexistence (ANSI). This process addresses the interconnectivity issues present in radio frequency environments. The outlined process involves defining the environment and evaluating the wireless performance of the equipment through thorough testing. An in-depth version can be found in its entirety online. Increasing the longevity of devices IoT devices are being used in vital industries such as healthcare and automotive so battery life and power consumption are two challenges that engineers must take seriously. A failure in this area could potentially lead to loss of life or safety concerns on the road. As new firmware and software are being designed to address these factors, engineers must be implementing them into IoT devices with the ability to be continually updated. Suggested solutions Longevity should be addressed in all aspects of the design process and tested thoroughly using a wide range of currents. By doing this, an engineer can simulate consumer applications to best predict performance. Security Security and privacy are concerns with any technology, but with the use of IoT in medical devices, it’s paramount Security has been a controversial issue for IoT since its inception. Security and privacy are concerns with any technology, but with the widespread use of IoT in medical devices, smart home appliances, and access control and surveillance, it’s paramount. For example, medical devices may store information about health parameters, medications, and prescriber information. In some cases, these devices may be controlled by an app, such as a smart pacemaker, to prevent heart arrhythmias. Naturally, a security issue in these devices could be devastating. Another example of dangerous security concern is with surveillance cameras and access control, such as for home or business security systems. These intelligent door locking systems contain locks, lock access controllers, and associated devices that communicate with each other. Suspicious activities are flagged with alerts and notifications, but if a hacker gains access, it can lead to real-world, physical danger. Security design points Here are some key points for security design: Physical security: IoT devices may be in external, isolated locations that are vulnerable to attack from not only hackers but by human contact. Embedding security protection on every IoT device is expensive, but it’s important for general security and data safety. Security of data exchange: Data protection is also important because data gets transmitted from IoT devices to the gateway, then onto the cloud. With surveillance and access control information or sensitive medical information, and encryption is vital to protecting data from a breach. Cloud storage security: Similar to data exchange, the information stored in medical devices, surveillance and access control systems, and some smart appliances with payment features, must be protected. This includes encryption and device authentication through access control, which can police what resources can be accessed and used. Update: Security vulnerabilities will always occur, so the key to addressing them is having a plan to address errors and release patches. Customers should also have options to secure devices quickly and effectively. Suggested solutions Engineers can include security and protection into IoT devices with early and perpetual testing throughout the design process. Most security breaches occur at endpoints or during updates, giving engineers a starting point for how to address them. Creating more secure devices Ensuring the security of connected devices should be of supreme importance for engineers as these devices are vulnerable to security breaches. The ultimate security of devices goes beyond the scope of engineering as the network and enterprise levels must also be secure to protect against potential threats. However, engineers play a role in this protection as well and should consider device security in the design process. Suggested solutions On a device level, engineers can help protect IoT devices from vulnerabilities by implementing early testing and continuing it throughout the design process. Most security transgressions occur at endpoints so this continual testing can, and should, create barriers to breaches. Regulations and compliance For IoT engineers, the complex web of regulations and compliance standards present new challenges Regulations and compliance surrounding data and technology are nothing new, but for IoT engineers, the complex web of regulations and compliance standards present new challenges. Engineers are already addressing obstacles in security and connectivity, all while meeting deadlines, and working around regulations adds time and expense to the process. Unfortunately, a failure to comply with global, regional, or local laws can lead to setbacks and fines. In addition to time lost in production and possible fines, the damage to a company’s reputation can lead to even more losses. Suggested solutions Compliance should be considered early and often in the design process. In the early stages of development, the IoT device or components can be tested to address and compliance issues. If possible, use a scalable and automated test system. The comprehensive solution As we stare at an uncertain future full of possibilities, it’s clear to see that new challenges will continue to be presented as technology evolves and new innovative devices are designed by engineers. By addressing these issues early and often, solutions can be implemented and problems prevented before they even have a chance to occur thanks to sound engineering and solid design.

Everbridge provides the critical event management platform to help organisations manage the full lifecycle of a crisis
Everbridge provides the critical event management platform to help organisations manage the full lifecycle of a crisis

The UK Government is consulting on plans to introduce a new law requiring operators of public spaces to consider the risk of a terrorist attack and take proportionate and reasonable measures to prepare for and protect the public from such an attack. Under the proposals outlined in the consultation document, those responsible for a publicly accessible location will have a ‘protect duty.’ The protect duty would apply to certain publicly accessible locations, widely defined as ‘any place to which the public or any section of the public has access, on payment or otherwise, as of right or by virtue of express or implied permission.’ Publicly accessible locations Publicly accessible locations include a wide variety of everyday locations such as: Sports stadiums, festivals and music venues, hotels, public houses, clubs, bars, casinos, high streets, retail stores, shopping centres, markets, schools, universities, medical centres, hospitals, places of worship, government offices, job centres, transport hubs, parks, beaches, public squares, other open spaces. This list is by no means exhaustive, but it does demonstrate the diverse nature of publicly accessible locations. To manage these challenges, some organisations are relying on guarding and manual solutions or processes Organisations responsible for publicly accessible locations have many challenges they need to overcome while at the same time ensuring that safety and security is visible, yet non-intrusive. To manage these challenges, some organisations are relying on guarding and manual solutions or processes, whereas other organisations have invested heavily in diverse security technologies: CCTV, access control, intruder alarms, fire detection, intercoms and more. Managing public safety Effectively managing public safety and security is difficult and can be costly. Potential liabilities are something to seriously consider, based on forthcoming regulation and prevailing public expectations. When a critical event unfolds public reactions can be difficult to safely manage, however this is now a must do. Public space operators need to get the right information to the right people at the right time to protect all people, including every single member of the public. Their work with public and private sector clients around the world has enabled them to understand ‘protecting the public’ challenges and offer solutions that meet the specific requirements. Public space operators and organisations must keep track of all emerging threats and assess the potential impacts of when, not if, they will experience a critical event. Unpredictable threat environment Security executives have the challenge of protecting people, facilities and assets With an increasingly complex and unpredictable threat environment, it has never been more imperative to act faster. With more complete intelligence, organisations can increase their speed and decisiveness to assess risks and prevent those risks from harming people or disrupting operations. Leisure and entertainment is a prominent UK industry, that is also one of the most vulnerable to safety and security threats. Security executives have the challenge of protecting people, facilities and assets, while also maintaining friendly and welcoming services to visitors. Public venues and retailers must provide non-intrusive client safety and security. For the would-be criminal, safety and security provision should be a visible deterrent. Balancing these needs is where Everbridge can help organisations. Everbridge provides the critical event management platform to help organisations manage the full lifecycle of a crisis. Facilitating device activation Their platform correlates events from disparate safety and security systems into a common operating picture to focus people’s attention on what really matters. The platform provides users with actionable alerts, next step actions, and automated reporting to better manage risks, ensure compliance with operating procedures and support the business continuity. Automated workflows ensure rapid, consistent responses, reducing the risk of human error Automated workflows ensure rapid, consistent responses, reducing the risk of human error. It also facilitates device activation to ensure they are always in operational control and protecting the people. Dynamic reports and dashboards provide real-time actionable insights for the operations teams and senior executives. Benefits include: Real-time situational awareness. Reduces risk. Accelerates response times. Avoids technology lock-ins. Prevents information overload. Keeps stakeholders informed. With Everbridge, the organisation can deliver the public protect duty. Now and in the future.