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How To Create A Secure IoT Network To Guard Your Connected Devices
IoT has created a bridge between the physical world and the Virtual World. With all conviction, we can expect IoT as an indispensable part of our lives. But as the IoT implementations are growing, the security concerns are also growing at the same pace. And Today, being a leading IoT service provider, we are going to share how you can create a secure IoT network that will keep your connected devices as safe as possible. Steps To Create a Secure IoT Network Let me tell you very straight that securing the IoT network doesn’t require a completely new or complex set of ideas and principles. The core lies in the best practices while designing the IoT solution.  As there are many small to big things considerably, We can say IoT security is a multi-faceted effort that requires big moves as well as small adjustments to ensure networks, data, systems, and devices are protected.  What is Security By Design? Security by design is a practice that ensures security as a crucial consideration at all stages of product creation and deployment. Often in the IoT developments led by speed and other priority factors, the security considerations are included late in the design and prototyping phase. That results in security breaches. It’s important to remember that as devices and their firmware get obsolete and error-prone in time, they may become an attractive target of bad cyber actors. Hence, it’s crucial to manage the lifecycle of security devices and cloud spectrum to reduce the attack surface. The sad part is that most of the time, robust and long-term security strategies are overlooked during IoT implementations. Security is not a one-time activity, rather an evolving part of the IoT ecosystem that should support IoT deployments’ lifecycle in: Adding new devices and decommissioning others, Onboarding to new cloud platforms, Running secure software updates, Implementing regulated key renewals, Maintaining large fleets of devices. All these activities require comprehensive management of identities, keys, and tokens. To avoid time-consuming and expensive services in the field, IoT Security lifecycle management solutions must facilitate updates remotely while executing them across large scale device fleets. Now let’s see the Security concerns in two popular forms of IoT: Tips To Secure Consumer IoT Devices Smart speakers, domestic appliances, connected toys, and smart locks are all potentially vulnerable if not properly secured by design and during their expected lifespan.  For example, someone who owns a Google Nest Hub and other Xiaomi Mijia cameras around his home claimed that he received images from other people’s homes, randomly, when he streamed content from his camera to a Google Nest Hub. There are many such examples where the design loopholes have caused many consumers more harm than good. The good news is that ETSI recently announced ETSI TS 103 645, the first worldwide standard for consumer IoT security. This sets a benchmark for how to secure consumer products connected to the internet and aims to promote best practice. Additionally, here we are going to share tips that will help you in designing a secure IoT network for your consumers and smart homes. Know Your Network and The Connected Devices – When we put together several devices over the internet that potentially leaves your entire network vulnerable. It’s common to lose track with an increasing number of equipped devices. Hence it’s essential to know your network — the devices on it and the type of information they’re susceptible to disclosing.  Assess the IoT Devices on Your Network First, know which devices are connected to your network, audit your devices to understand their security posture. While selecting devices check for newer models with stronger security features, etc. Further, before making a purchase, read up to understand how much of a priority, security is, for that brand. Input Strong Passwords to Protect Your Devices and Accounts Use strong and unique passwords that will assist you in securing all your accounts and devices. Get rid off the common passwords like “admin” or “password123.” Make use of a password manager, if needed, to keep track of all your passwords. At the same time ensure that you and your employees don’t use the same passwords across multiple accounts and be sure to change them periodically. Choose a Separate Network for Your Smart Devices Separating networks is a smart way to protect your smart devices in the IoT network. With network segmentation, even if attackers discover a way into your smart devices, they can’t access your business data or sniff on that bank transfer you did from your personal laptop. Reconfigure Your Default Device Settings Usually when we receive our smart devices they are packed with default insecure settings. And things become worse if we do not modify their configurations. As weak default credentials, intrusive features, ports and permissions need to be assessed and reconfigured as per your requirements. Install Firewalls and Other IoT Security Solutions to Identify Vulnerabilities To safeguard your Smart homes and other consumer IoT networks block unauthorized traffic over the wire through firewalls. At the same time run intrusion detection systems/intrusion prevention systems (IDS/IPS) to monitor and analyze network traffic. This is where you can use an automated scanner to uncover security weaknesses within your network infrastructure. Use a scanner to identify open ports and review the network services that are running. Now let’s check out the key steps to protect your enterprise network against modern security threats. Steps To Protect Your Enterprise IoT Network We have seen many manufacturing industries adopting IoT and growing. However many aren’t serious enterprise security, that’s a mistake. Because we have seen that In 2018,  21% of companies reported a data breach or cyberattack due to insecure IoT devices. So do not let that happened with you and follow the steps below to protect your enterprise IoT network: Step 1:  Be alert of the risk As IoT is relatively new as compared to IT, hence some of the threats are newer and not as widely used, and make companies reluctant. But we forget that IoT security is like buying insurance. We think we won’t ever have to use it, but the odds are, we might. So it’s better to realize that with a lot of connected devices in use, we might have vulnerabilities that need to be minimized and fixed. Step 2: Design a Secure network architecture The Ponemon study found that less than 10% of organizations are confident they know about all of the printers, cameras, and building automation systems on their networks that are connected to the Internet. Hence, it’s essential to carefully design your network architecture. And protect your devices from the network, and further protect your network from the devices. Step 3: Observe Your Suppliers and Vendors Attackers are smart today, they may target you through the suppliers and vendors. So do not underestimate the vulnerability that comes along with companies you connect with.  It’s a better practice to include the security practices as part of your vendor risk management process. Step 4: Practice For the Data Breach You must prepare for an IoT data breach the same way you prepare for disasters like fire, earthquake, or other. Make a plan, have a regular drill, and keep the plan updated. It’s good to have regular exercises to test your data-breach preparedness.  How will you tackle the situation If you get breached? you should have a well-documented plan for the same. Step 5:  Control what you can, and learn to live with calculated risk It is important to realize that while you should do everything that you can do, you can’t expect to prevent everything. So learn to live with a calculated risk. For something that’s as crucial as a backdoor into your entire network, which is really what a smart-building management company represents, you really need to keep a close eye on their security practices. Step 6: Start now, and get ready for whatever comes next IoT being an emerging technology can not and should not be removed from our enterprises.Although there is risk that comes with it but like all excellent growth you need to take that risk and better prepare yourself to reduce the chances of mishappening like data breaches and others. You know new devices are coming with each passing days, hackers are becoming more creative, and the risks are getting more profound and devastating. So, Be aware and take proactive steps to secure your IoT network. And if you are looking for any other assistance in IoT services, do not forget to check our IoT services page.
Significant COVID-19 Impact on Cloud Computing | Healthcare Industry | Data Bridge Market Research
COVID-19 Impact on Cloud Computing in Healthcare Industry The COVID-19 outbreak has remolded the conventional proceedings of healthcare organizations amidst overburdening and lack of resources. Market players that were solely dependent on hosted IT infrastructure and deficient cloud framework are grappling to keep operations smooth especially as the need for virtual consulting, mhealth & telemedicine is increasing. Then again, cutting edge cloud-first new companies that have received cloud innovation route before the COVID-19 emergency are stamping its focal points even in current conditions. Providing an answer to the limitations of hosted infrastructure, the cloud has given a platform to comply with the security regulations in healthcare, made it simpler to adjust to operational work process change, guaranteed a consistent patient-provider coordinated effort, and helped grasp a new health environment reality. As a result, cloud computing has proved to be of immense use for healthcare industry in these times. With the coronavirus outbreak, emergency clinics and centers are being overwhelmed with the patients. The measure of information that should be created or shared and the speed at which it needs to happen is putting additional strain on overburdened medicinal services experts, fortunately for them, cloud computing could give a speedy, secure, and cost effective arrangement. Cloud computing offers several advantages when it comes to ease of deployment overall cost, server management, scalability, speed, and security. The adoption of cloud computing is increasing in the aftermath of the pandemic in the healthcare industry as a necessity. However, several companies are facing different degrees of challenges while adopting this new infrastructure. According to the annual survey conducted by RightScale on the latest cloud trends named State of the Cloud Survey, businesses need to address below challenges for cloud adoption. Figure 1: Challenges of Businesses in Cloud Adoption the other hand, one of the primary advantages of cloud-based systems for healthcare is that managing data is no more a responsibility of the healthcare provider. With cloud service professionals keeping a watch and managing the system, healthcare providers are able to focus on other important facets of their responsibilities without deploying additional resources. With cloud computing, it is easier to oversee the services that are paid for and take decisions that are cost-effective. By making a custom plan to fit the needs of the healthcare provider, a more cost-effective plan can be created than setting up own systems. Cloud computing is also playing a major role in data sharing. During the COVID-19 outbreak, the need for sharing patient data across the healthcare system is higher than ever. Moreover, healthcare systems and its related parts create a great deal of information. For instance, clinical pictures and patient health information make up a ton of information. This information for the patient's whole lifetime needs to be stored, kept secure and shared with utmost reliability. Earlier on-premises systems capacity is badly designed and cloud registering gives a simpler alternative. With expansion of data, speed is of crucial significance. Cloud computing makes it simple to transfer, share, and recuperate information across different healthcare systems. It additionally enables healthcare providers to make changes quicker. Data sharing and correspondence between hospitals, surgery centers, emergency clinics, and other healthcare providers has become easier with the adoption of cloud computing. During the pandemic, time is crucial and cloud computing can help in saving time. Cloud processing has made some amazing progress with regards to tending to security concerns. The utilization of private and cross breed cloud frameworks has guaranteed that the clinical and health reimbursement related information of a patient stay secure. For instance, if a medical clinic has a virtual consultation service for patients, there can be a protected trade of information between the patient and the clinic utilizing cloud frameworks. As healthcare providers are attempting to increase application of telemedicine, cloud computing is anticipated to become necessary even after the pandemic subsides. Cloud services are usually available in three types – IaaS (Infrastructure as a Service), PaaS (Platform as a Service), and SaaS (Software as a Service). The below table summarizes the differences between hosted infrastructure and the three types of cloud computing services. .During the pandemic, the primary opportunities offered by cloud computing to healthcare providers are scalability, easier update, and easier collaboration amongst others. Scaling the operations using cloud computing is simpler as compared to on-premises infrastructure. Cloud permits to scale up or down rapidly, permitting organizations to meet present needs or reduce services ass per requirement, and furthermore consider future development. The COVID-19 pandemic has also necessitated innovation and development for higher efficiency of healthcare systems. The need for redesigning frameworks and information is expected to contribute in the growth of cloud computing market in healthcare industry. Updating & refreshing information utilizing cloud is simpler and faster. Having a cloud-based framework empowers healthcare providers to refresh information, applications, and frameworks as fast as could reasonably be expected. Cloud computing also helps in sharing of digital assets is to provide better services for patients. For instance, collaboration with other stakeholders can offer better types of assistance while working together. Joint efforts during the pandemic can prove beneficial for everybody. The race for a COVID-19 coronavirus immunization is well in progress, with clinical researchers and health professionals around the globe undertaking measures to develop a vaccine as soon as possible. While it probably won't be the principal thing that comes into view in biomedical exploration, cloud-based infrastructure will assume a significant job in this procedure. Cloud processing offers adaptability and access that will permit specialists to get to the information and applications they have to create potential coronavirus antibodies rapidly and successfully. With cloud-enabled access to data about the most recent viral strains, analysts can work together more adequately and create coronavirus immunizations all the more quickly. This framework has previously been instrumental in overseeing occasional influenza episodes in the course of the most recent decade. Cloud Computing in Vaccine Research: Cloud service providers have been taking measures for offering services for COVID-19 vaccine research. For instance, IBM Corporation is taking significant measures to increase accessibility of cloud-based AI research assets to clinical experts and researchers moving in the direction of COVID-19 treatment. On similar lines, in late March, Amazon Web Services (AWS) provided USD 20 million in cloud credits accessible as a component of its AWS diagnostic development initiative, which will sponsor investigation into symptomatic instruments identified with COVID-19 testing. Similarly, Oracle has also contributed significantly in coronavirus antibody advancement. The organization has played crucial role in building cloud stages for clinical preliminaries and using it to rapidly reveal a couple of arrangements, utilizing its current Oracle Clinical Trials Systems to assemble information on COVID-19 medication testing and constructing the COVID-19 Therapeutic Learning System using the same. The company is provided the system to the U.S. government and specialists which fills in as a vault for all COVID-19 medicines being controlled. Read more…