the future is data-driven, but iot has its challenges - ip camera housing
Planes, trains and cars.
Lights, watches and medical devices.
Garage, conservatory and stadium.
What is common?
Organizations in almost every industry can imagine connecting these elements
Growing Internet of Things (IoT).
Monitoring devices using sensors is not new.
It is new to connect these sensors to the Internet and screen out insights from the data they generate, and it is transforming industries from healthcare, retail to transportation and manufacturing.
It has even changed the way the whole city works.
The Internet of Things provides organizations with systematic insights to drive smarter decisions, smoother processes and better results.
But IoT is not a plug-in. and-Game Technology; it’s complex.
Successful implementation requires detailed, customized plans and integrated, scalable infrastructure, including sensors, powerful networks, a large number of storage tailored to specific goals, analysis software, and comprehensive
Integrating it together requires the capabilities and experience of different processes and systems, but the Internet of Things provides incredible potential for organizations that effectively deploy systems.
Whether healthcare organizations expand their business through telemedicine, whether retail businesses want to strengthen their relationships with their customers, or manufacturers want to improve operational efficiency, the possibilities of the internet of things are almost limitless.
In the era when the Internet has just started, websites are just digital business cards. Then e-
Business dominates, social media dominates, and the mobile revolution connects 24/7 users.
Since then, these digital business cards have become traffic navigators, shoe stores and document scanners.
The Internet of Things is the next natural evolution of the Internet.
In short, it is the combination of it and operational technology (OT).
The internet of things is more connected than devices such as computers, tablets and mobile phones.
It will connect people, places and things in the physical world.
Everything from clothes and generators to traffic lights and vacuum cleaners
Gain insights, streamline processes, and discover new possibilities.
By networking things that have not been connected in the past, organizations can speed up and improve existing processes, invent new business models, and even the entire line of business.
The internet of things is as huge as its name implies.
The common idea is that each scenario includes a sensor set that is networked to collect data points, analyze data points, and provide insight.
This data can provide the organization with information about customers and products;
It can help them monitor the equipment more closely;
It allows them to automate their processes and improve their operational efficiency.
IoT devices can take the form of watches, and if the patient's vital signs exceed the set parameters, they can alert health care providers to achieve intensive care without inpatient treatment.
It can also reduce return visits to hospitals and improve health care in rural areas that rely on telemedicine.
Networked sensors can help manufacturers manage their devices.
Instead of doing maintenance every few months (
Whether the problem is needed or waiting for a response)
, Users can use sensors to alert them of anomalies in device performance, enabling them to solve the problem remotely before the problem occurs.
This can save the cost of dispatching technicians and repairing equipment offline.
Responsive maintenance can also extend the life of the device and help organizations make better measurements when the machine is actually close to the end of life, rather than following a predetermined replacement calendar and retired equipment that may still be useful.
In IoT deployment, sensors can make trucking companies truly
Time view of their fleet so they can improve vehicle maintenance, route navigation and driver management.
They can also track inventory and assets
From goods shipments to businesses-owned tablets.
Intelligent Building is one of the most well-known applications of the internet of things.
For example, sensors can turn off lights and air conditioners on the floor after the last employee leaves for a day, and then turn them back on when the first person arrives the next morning.
Sensors control heating, ventilation and airconditioning (HVAC)
Systems, as well as windows and fans, can analyze the data to determine the most effective way to cool the space based on the current conditions.
The internet of things can also improve physical security.
Sensors can monitor cameras, video surveillance devices, and access control systems.
Not only can they detect external threats, but they can also trigger alerts if authorized personnel show suspicious behavior.
For example, if an employee usually leaves at 5 p, the sensor can notify the administrator. m.
Be in the office every night in the middle of the night, or if someone tries to enter the sensitive area without authorization.
However, with the possibility of the internet of things, there are also major challenges.
Almost anything can be connected to the Internet, which also means that almost anything can be a point of attack.
In this environment, the organization must
Check their security policies to make sure they are comprehensive enough to withstand threats in the IoT era.
Another major challenge is the advantages of the Internet of Things: many of its data collection systems already exist.
The problem is that IT infrastructure such as customer relationship management (CRM)
Enterprise resource planning (ERP)
Traditionally, the system runs on a completely independent network (
In different environments
Operating technology from HVAC systems and manufacturing equipment.
Therefore, organizations do not have to start from scratch when implementing the IoT plan;
They just need to merge them into one network in a common format.
Large enterprises may choose to build systems to address these challenges, but it makes sense for many organizations to move to the cloud --based Software-as-a-Service (SaaS)
Integrate systems, provide solutions for security, and perform data analytics.
Organizations can deploy industries-Specific cloud
Service-based, making IoT plans more feasible in terms of time and cost.
Building blocks that connect sensors and devices to the internet is just a step in the IoT project.
Its value comes from collecting and analyzing data to gain insights from it, sharing them with all those who might benefit from it, and automating operations that previously required human action.
The idea behind the Internet of Things is systematic improvement.
Even seemingly insignificant data points can be valuable when combined with other data to drive a series of changes across the system.
For example, if a wearable device indicates a problem with the heart rate of an elderly patient, it may alert the patient to take the medicine and solve the immediate problem.
The long-term value comes from the doctor who notified the patient of the incident, updated the electronic health record, and found any other problem that might indicate a bigger problem.
The system can remind relatives of patients that more drug assistance may be needed in the future.
The same principle applies to business leaders, employees, suppliers, customers and others involved in the supply chain. More data-
Delivering drive insights to more playhouses can produce results that no one had imagined before the Internet of Things entered the field.
The cloud is the line that connects all these elements.
The sensor is connected to the cloud and aggregated, analyzed, and accessed by stakeholders.
The IoT solution consists of four basic components: Sensors: From a thermocouple measuring temperature to a mobile app running on a smartphone or tablet, these can be anything.
The sensor can measure pressure, vibration, touch, speed, proximity, humidity, torque, etc.
Anything that can be connected to the sensor
This is everything-
It is possible to benefit from the internet of things.
Network: in its essence, the internet of things can connect countless sensors and devices to generate a large amount of data storage.
The bandwidth provided to share this data depends on the network. Software-
Define the network (SDN)
It provides a promising prospect for IoT deployment.
SDN separates the data and control plane of the network system and centrally controls the entire network, enabling administrators to command traffic throughout the network or expand bandwidth as needed.
Since the Internet of Things relies heavily on mobile technology, it is also crucial that organizations have a strong wireless infrastructure to support it.
Storage: between 2005 and 2013, the amount of data in the world expands from 132 AI bytes to 4 AI bytes. 4 zettabytes —a 33-fold increase.
It is expected to grow tenfold by 2020.
Moving towards a world where almost everything is converted into a data source raises an important question: where will all the data flow?
Does the organization choose on-
Place or cloud
Based on storage solutions, the accessibility of storing data is critical, otherwise it will not lead to the results of the internet of things.
Analytics: in addition to more powerful storage solutions, exponential growth in IoT data requires powerful processors and analytics software.
With the advent of new data, software developers have designed new analytics solutions for specific industries.
As more data from IoT systems expands, these solutions will evolve.
Many organizations are thinking about the cloud.
Customized solutions based on their industry will adapt to the inevitable changes in the Internet of Things world.
Driving Jeep Cherokee security of IoT deployment when crossing the city center
On July 2015, Louis, Andy Greenberg suddenly felt an air explosion from the vent.
The radio mysteriously changed the station, the music began to ring, and the windshield wiper began to ring.
The situation went from complex to terrible when Greenberg stepped on the throttle, but when he looked at 18-
Wheeler approached from the rearview mirror.
Fortunately, the experience was a tea party Greenberg agreed to attend.
Once the white hat hackers Charlie Miller and Chris varlask have made their point clear --
They may hijack the wireless entertainment system and dashboard capabilities of the vehicle
They gave up control of the system and let Greenberg take over. The car-
The hacker test not only reveals the defects of the Jeep wireless system, but also reveals the IP-
People used to worry about malware on computers, but in the era of the Internet of Things, home alarm systems, traffic lights, baby monitors, pacemakers --
Almost any "thing"
Vulnerable to vulnerability.
Cyber attackers have proven this in recent years by repeatedly invading utilities, sewage treatment systems, and even baby monitors.
Adding so many new systems to the network puts additional pressure on IT departments that are already working hard to keep the system secure.
As more organizations adopt IoT solutions, they need to make sure they don't create new ways of entry for cyber attackers.
Thanks to optimistic forecasts for the growth of the Internet of Things, organizations are competing to safeguard their rights and interests.
According to a study by Morgan Stanley, 90% of semiconductor manufacturers are developing new chips and sensors for IoT applications.
Although some products are designed with safety in mind, not all products are equal.
In order to guard against increasing threats in IoT deployments, an organization needs a multi-layer, scalable security policy starting with a gateway that includes legacy systems, sensors, and the cloudBased on the solution.
Firewall: whether it's a device or a software solution, a firewall is an important part of any security policy.
The new firewall product is designed to accommodate a large number of devices unique to IoT.
Encryption: in order to protect data when the data stays on the device and is transmitted over the network, organizations can use algorithms to encrypt the data, and no one other than the user who uses the decryption key can use it.
Authorization: As more and more IT and OT devices connect to the network, IT is very important to manage who can access the device and location.
Using authorization tools such as the Cisco identity service engine, organizations can create policies that automate access management throughout the organization.
Network Segmentation: The Internet of Things connects a large number of IT and OT systems.
Therefore, any connected system can be dangerous if the threat is to destroy the organization's network.
One way to prevent this catastrophic situation is to split the network.
In this way, if there is a violation, only the equipment in that segment will be compromised.
The data aggregation of IoTBig data is increasing.
Experts predict that up to 200 billion IoT devices will be in operation by 2020.
A large amount of data will be collected, aggregated and shared across all these devices.
With organizations planning the infrastructure they need to support IoT work, they can't just consider today's needs.
They have to plan a few years in advance so that their investment will not be wasted when their data exceeds their storage solution.
Considering the infinite possibilities of the internet of things, it is almost impossible to measure the future storage needs of an organization.
Therefore, it is important to find scalable, flexible storage solutions that can grow with IoT deployment. Cloud-
Storage-based that organizations can easily scale up or down makes sense.
Instead of building the infrastructure
Data centers, organizations can buy storage from the cloud-
Providers based on current requirements.
If these requirements change, they can buy more or less storage space.
The service model reduces IT costs.
Organizations can scale up and down to meet changing needs, rather than buying more than they need at peak times.
As data traffic increases, organizations must not only have enough space to accommodate information, but they must also ensure that the data is easy to access.
IoT data comes from very different environments using different formats in different languages.
In turn, users face severe challenges in compiling these differences into common language and storage solutions, so they can analyze them as a whole.
Software from vendors such as Splunk can help organizations understand the data they collect.
The developer community that appears around Splunk and the company has created many applications and add-ons
Simplify ons for collecting IoT data from different systems.
Since different organizations have different resources and requirements, IT leaders should consider a variety of storage options: Disk: this storage mode includes hard
Disk drive, dvd and cd.
They can provide a simple and affordable storage solution, but the disk is easily damaged.
Cloud: storing IoT data with service providers is a simple, accessible solution.
Users and partners can access data from anywhere via an Internet connection.
The cloud solution is highly scalable and does not need to be in-
Cloud storage can be hardware storage or buy more devices than they need. Flash: Solid-
State storage drives offer higher speeds and performance compared to other options, while using much less energy.
Flash storage, however, is often more expensive than other solutions.
Hybrid: In the event of a failure of one method, combining multiple types of storage solutions can reduce costs and provide a powerful backup solution.
The value of data analytics and business intelligence for the internet of things is not just to put sensors on objects and connect them to the Internet.
This strategy may backfire.
If organizations invest too much in connecting objects and collecting data without understanding it, they may end up wasting time and money.
While many organizations recognize the potential of the internet of things, they have difficulties in how to get value from the internet of things.
Even organizations that have a clear vision of how the internet of things can help them must overcome obstacles in order to achieve their goals.
They need to determine how to collect data automatically and combine different types of data.
Structured and unstructured
Analyze this data from various sources with different protocols and implement it into their process.
Data generated, collected and analyzed by the internet of things can change organizations and help them make faster and better decisions in a significant return.
In fact, an economic analysis of Cisco Consulting Services shows that the Internet of Things will generate $8 trillion at the potential bottom.
Deliver line value over the next decade through innovation and revenue, asset utilization, supply chain and logistics, increased productivity and enhanced customer experience for employees.
A daunting aspect of the internet of things for many IT leaders is to start with a new technology investment, but in many cases IT is unnecessary.
In fact, combining IoT initiatives with existing data analytics tools such as ERP and CRM systems can improve analytics.
Combining all data from ERP, CRM and other IT systems with thousands of sensors on the operating device can overload the network.
However, IoT sensors can only be configured to communicate with the network if significant changes occur.
For example, tire sensors do not clog the network with continuous data.
Instead, it processes the data at the edge of the network (
And send an update to the network center (
Data center or cloud)
Only when pressure changes are detected.
In some cases, this concept of processing data at the edge of the network is called fog computing.
Another key aspect of IoT analysis is database management.
Normalization is the process of concentrating data of various sources and types in a common format in a central location for searching and analyzing data.
A powerful database management system can help this process.
Many organizations have already paid off from the internet of things.
For example, the mining company Dundee Precious Metals has installed a wireless network covering 50 kilometers of tunnels, which will-
Sensors are enabled from lights and fans to vehicles and video surveillance cameras, as well as workers equipped with IP
Mobile phones, tablets and hats that support radio frequency identification (RFID)tags.
The IoT program gives managers a better understanding of what's going on underground and improves communication with miners to make operations smoother.
This has made working conditions safer, production increased by 400%, maintenance and energy costs reduced.
The Boston Police Station's real-time crime center uses IoT data from cameras, gun detection technologies, and other sensors around the city to deal with crime, identify suspects, and provide officials with real-time information to respond to events.
Farmers can use data analysis to improve soil conditions and prevent pests.
In order to predict inventory more accurately, custom promotions and displays are required for store and online shopping behavior.
Today, future IoT applications have emerged, just waiting to be discovered from the data.
Once data from IoT systems are analyzed, organizations can gain new insights into ways to improve operations.
But the real value is putting these insights into action by coordinating and automating processes.
It is easy to turn off the lights or adjust the thermostat, but when the management of lights, thermostats, door locks, HVAC systems, water heaters, generators and elevators is centrally automated, the organization can achieve the main efficiency.
A necessary step for any IoT project is to identify content that can be choreographed or automated.
One of the values of digitalization is to connect different systems so that they can perform functions that have never been before.
Consider the occurrence of fire on the 20 th floor of the building.
The IoT system can turn off the air conditioning system of the building so that the smoke does not spread to the entire plumbing system and can also light up the LED lights to let the firefighters know where to go.
It can move the elevator to a lower floor and open the exit that is usually locked.
It can replace digital signage throughout the building and send automatic phone calls and text messages to alert building residents to emergencies.
The system can even track employees through GPS
Badges are enabled to make sure everyone leaves safely.
IoT orchestration and automation can be used to manage devices, networks, and energy.
It can also help consistent policy execution by putting rules (such as which parts of a building an employee can access) into an automated control engine.
The nature of the Internet of Things is large and complex, and how services help provide the internet of things.
Even organizations that embrace the possibilities of the internet of things can hardly bring them the focus and strategy of real value.
This is understandable.
Many IT professionals already have full
Manage the time work of traditional infrastructure.
Internet of Things brings operational technology
Everything from HVAC systems to commercial automation tools to elevators.
The role of IT professionals, as well as a range of new software, services and tools.
Managing all of this requires the expertise and experience that very few organizations have.
But organizations cannot wait in terms of the internet of things.
The science has created a powerful wave of technology in many industries, and new business models have emerged where traditional companies are hesitant.
The American Enterprise Research Institute predicts that 75% of the 2011 S & P 500 index will be replaced by new companies by 2027.
Now is the time for digital transformation.
To help organizations cope with the challenges, CDW has set up a dedicated team of business architects with expertise in different vertical areas.
These IoT/digital transformation business architects rely on each customer's understanding of their challenges, operational issues, history, culture, governance models, and priorities and goals.
The team then translates what the organization needs into a technical solution.
The CDW's IoT team also takes advantage of the expertise of many subject matter experts in the field of CDW services, including networking, cloud, security, mobile, and storage.
In addition, CDW has attracted the ecosystem of traditional IT partners, service providers and new operating technology partners.
This ecosystem is critical because all mobile components are important in any IoT implementation.
It includes a huge It infrastructure, including sensors, networks, storage, analytics tools and security, as well as operational technologies and update tools that integrate them together.
CDW has a mature, normative approach to uncover the mystery of this complex process.
It can help customers change their organization and find value.
The solution architect for CDW starts with the idea workshop, where they discuss with the client the organization's current environment and its future goals.
The parties analyzed the gap between where the organization is and where it wants to be, and then came up with the idea of closing that gap.
Once a list of ideas is established, the organization will give priority to the projects it wants to work on.
Some are necessary prerequisites for further entry into the Internet of Things, while others may be particularly important to the organization.
Once these projects are listed as priority projects, CDW engineers will develop a roadmap for achieving them.
From there, CDW performs the roadmap with the client.
It can consist of projects for up to six months or two years, but they all move towards a vision and strategy to change the environment.
In addition to its IoT/digital transformation team, CDW offers a range of services that are useful in IoT implementation, including: live
World app companies are changing the way organizations do business in almost every industry.
It helps businesses operate more efficiently, promotes innovation, and improves security, communication, and collaboration.
Take food maker SugarCreek for example.
In 2015, the company from 70,000 square meters
425,000 square feet of space
Foot intelligent manufacturing factory located in Ind Cambridge City.
In the new building, employees wear radio frequency identification (RFID)
So if the facility is evacuated in an emergency, management will be able to find everyone easily.
RFID tags also help improve the workflow.
If the employee is walking around the factory most of the time, the label can identify potential bottlenecks so that the manager can simplify the workflow.
SugarCreek installed 260 cameras around the factory and installed tracking software and video analysis to analyze the work efficiency of employees.
These systems are connected to whiteboard technology, and TVs throughout the plant provide information about the productivity of the work team so that they can identify where improvements are needed.
The Internet of Things is also changing public security. Cloud-
The system-based can extract data from past crime reports, Internet and social media, as well as audio and video analytics
Including face recognition and license plate readers
This will not only help prevent crime, but will also help officials who deal with and investigate crime scenes.
They have access to a lot of data.
Including surveillance video, criminal history, etc.
This can be better prepared for them when they arrive at potential criminal or security incidents.
Intelligent firearms using biometric technology (
So only designated users can fire
It is another Internet of Things Innovation in the field of public security.
They can also collect data, such as the time and angle of their dismissal.
In some cases, the Public Security IoT program is part of the overall urban strategy.
In order to improve efficiency and citizen service, the whole community is turning to intelligent technology.
Roast chicken breast.
For example, a city digital project has been carried out in cooperation with Cisco, which uses sensors, IP cameras and applications to achieve smart street lights, parking spaces, traffic management, etc.
Medical, education, retail, government-real-
As more organizations see the benefits of technology, world examples of the internet of things are becoming more and more common in all walks of life.
To learn more about how CDW solutions and services power IoT projects, visit cdw. com/NextGenNet.