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Cloud architects are responsible for communicating with vendors to negotiate third-party contracts for hardware, software and other cloud technologies. It’s a constantly evolving field, and the job requires someone who can stay on top of the latest trends and technologies.

If you’re just starting out in your career and you have your sights set on becoming a cloud architect, you can attend a master’s program specializing in the field. There are also a variety of certification and professional development programs you can choose from. If you already have an IT background or the right skillset for a cloud architect, you can look into one of these professional certifications to boost your resume:


AWS Certified Solutions Architect: Amazon Web Services (AWS) is one of the most-used cloud services in the industry. This certification establishes your skills when it comes to managing AWS applications and infrastructure.

Google Certified Professional Cloud Architect: Google’s cloud architect certification asses your ability to design, plan, manage and provision cloud solution architecture and infrastructure. It also covers security and compliance, analysis and optimization of cloud architecture.

IBM Cloud Computing Solution Architect: This certification demonstrates your ability to “design, plan, architecture and management principles of an IBM cloud computing infrastructure.”


With more than a million active customers, AWS delivers flexibility, scalability, and reliability. Some of the companies currently harnessing big data in AWS are General Electric, IBM, Splunk, and the Weather Company. You may even find yourself working for a medical company and building a solution to map patients’ genomes to predict diseases. If you love to travel, you might land yourself a job at Expedia, which uses AWS to host its “Expedia Service,” a travel suggestion service. Let’s not forget one of AWS’s biggest customers, Netflix.


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5G architectures will be software-defined platforms, in which networking functionality is managed through software rather than hardware. Advancements in virtualization, cloud-based technologies, and IT and business process automation enable 5G architecture to be agile and flexible and to provide anytime, anywhere user access. 5G networks can create software-defined subnetwork constructs known as network slices. These slices enable network administrators to dictate network functionality based on users and devices.


5G also enhances digital experiences through machine-learning (ML)-enabled automation. Demand for response times within fractions of a second (such as those for self-driving cars) require 5G networks to enlist automation with ML and, eventually, deep learning and artificial intelligence (AI). Automated provisioning and proactive management of traffic and services will reduce infrastructure cost and enhance the connected experience.

Radio Access Network: The Radio Access Network mainly includes 5G Small Cells and Macro Cells that form the crux of 5G Wireless Technology as well as the systems that connect the mobile devices to the Core Network. The 5G Small Cells are located in big clusters because the millimeter wave spectrum (that 5G uses for insanely high speeds!) can only travel over short distances. These Small Cells complement the Macro Cells that are used to provide more wide-area coverage.

Macro Cells use MIMO (Multiple Inputs, Multiple Outputs) antennas which have multiple connections to send and receive large amounts of data simultaneously. This means that more users can connect to the network simultaneously.


Core Network: The Core Network manages all the data and internet connections for the 5G Wireless Technology. And a big advantage of the 5G Core Network is that it can integrate with the internet much more efficiently and it also provides additional services like cloud-based services, distributed servers that improve response times, etc. Another advanced feature of the Core Network is network slicing (Which we talked about earlier!!!).

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An Associate Cloud Engineer deploys applications, monitors operations, and manages enterprise solutions. This individual is able to use Google Cloud Console and the command-line interface to perform common platform-based tasks to maintain one or more deployed solutions that leverage Google-managed or self-managed services on Google Cloud.

As you probably know already, cloud computing is a big deal. Businesses continue to use it to offer customers a wide range of online services. There are three categories of cloud computing that companies use.


IaaS

Infrastructure as a Service (IaaS) refers to the providing of instant computing infrastructure that is managed over the internet. This type of service allows companies to gain quick access to the resources needed to build out services and technologies delivered over the cloud. IaaS companies include Amazon, Rackspace, Google, and many others. IaaS companies manage the hardware so their clients don’t have to.


PaaS

PaaS stands for "Platform as a Service." It refers to cloud-based platform services like operating systems, databases, programming language execution environments, etc. PaaS provides the framework that is accessible to multiple developers to build custom software upon.


SaaS

SaaS, or Software as a Service, is the most known of the three categories of cloud computing. SaaS is the actual software delivered to the user over the internet. It doesn't need to be downloaded and installed on individual devices in order to be used by an individual, team, or company which makes it easy to use and highly scalable. Google Apps, Dropbox, and DocuSign are SaaS examples.

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While millimeter wave (mmWave) frequencies for the first phase of NR are better defined, there will still be a need for multiple bands, depending on region.  For instance, Chinese regulatory bodies have proposed 24.75-27.5 and 37-42.5 GHz.  The FCC in the US has proposed 28 GHz and 2 bands covering 37-40 GHz.  And the EU has specifically stated that 28 GHz will not work and is focused on the 24-27 GHz spectrum as well as 38 and 39 GHz.  Korea and Japan are also aligned around 28 GHz.

According to Mobile UK, an industry lobby group (quoted in The Guardian), the continued spate of incidents and harassment are having negative effects on maintenance and on the continued connectivity vital for remote work and school. 


Telecom Companies React

In the New York Times article mentioned earlier, journalists Adam Satariano and Davey Alba report that threats against telecom employees and equipment are too widespread to ignore. BT Group, a telecom company based in London, reports at least eleven incidents of vandalism while Vodaphone reports more than fifteen incidents. The reporters explain that while these attacks incur major damage on existing telecom infrastructure, actual 5G equipment has been unaffected.


In a statement authored by EE (a division of BT Group), O2, Three, and Vodaphone, the four major UK telecom providers pointed out that “There is no scientific evidence of any link between 5G and coronavirus.”


The statement continues that the claims "have led to the abuse of our engineers and, in some cases, prevented essential network maintenance taking place." The statement concludes by reminding the public of the vital role of network connection and urges anyone who witnesses the abuse of telecom workers to report the incident to local authorities.

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When most people think of field service, they think of setting up cable TV or seeing an electrician work on a downed power line. But the field service landscape is quickly evolving to include a broader range of deskless employees. In fact, 80% of the world’s workforce is now deskless, and field service has expanded into education, healthcare, hospitality, and beyond. 


Field service management (FSM) is the process of managing an organization’s workers, equipment, service, and work operations while out in the field. Field service management incorporates processes like assigning and scheduling work orders, dispatching workers to new assignments, communicating with field workers on the job, managing product inventory, and collecting data from the field.


By optimizing their field service management, companies can streamline workforce operations, remove unnecessary tasks from the workflow, and simplify daily life—not only for field workers on the job site, but also for administrative staff back in the office. 


As field service work becomes more complex, field service management has become even more important: 


New industries have started to use field service principles and tools in their mobile work, including mobile healthcare, real estate, and sales. 

Blended workforces, which include full-time employees and independent contractors working side-by-side, require tools that can provision access and permissions based on the worker’s role. 

Flexible work patterns help accommodate customers’ needs, even outside the standard 9-5 schedule of the past, but it makes scheduling workers (and accommodating scheduling preferences) more complex than ever.

More info: field service engineers


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