Tag Archives: Cloud

How 5G Is Unlocking the Hidden Potential of Mobile Gaming

5G is the fastest growing mobile generation of all time. There are 236 active 5G subscriptions with 3 billion 5G subscriptions anticipated by 2025. The vastly improved speed will have a transformative impact on a number of technologies—especially mobile gaming.

The game industry generates over $175 billion in revenue. Mobile gamers constitute over 2.6 billion mobile gamers worldwide. Mobile gaming is big business and 5G stands to unlock even more hidden potential in a variety of ways.

SAY GOODBYE TO LATENCY

Imagine thousands of players simultaneously playing Call of Duty on mobile devices with no lag and professional-level speed. Mobile operators like Ericsson are pushing the 5G revolution everyday to make these scenarios a reality.

In competitive gaming, latency can make or break a game. Online gamers can easily become frustrated and churn if latency ruins their experience. With speeds up to 10Gbps, 5G delivers 10 times the speed of 4G LTE. Response times as low as 5 milliseconds will virtually eliminate lag between input and response. As 5G becomes more reliable, it will hold true even for massive online games with a large number of competitors.

In a recent survey conducted by OpenSignal on the best networks for gaming experiences, mmWave 5G led the way—ahead of private wi-fi networks.

OFFLOADING PROCESSING

For IoT developers, 5G’s ability to bolster cloud computing poses major opportunities. 5G enables simple devices and sensors to complete complex tasks by offloading major processing duties to the cloud.

Mobile gaming can similarly benefit from the raw speed of 5G. Higher bandwidth and lower response times open up the possibility of offloading key processes. Games will be able to handle more arduous rendering duties remotely, producing a higher quality stream. With the cloud carrying the workload, the quality and age of the user’s device would matter significantly less provided the user has a 5G data plan. Gamers will still be able to expect the same high-quality experiences regardless of whether they have the latest smartphone.

AR AND VR BOON

Massive increases in streaming speed and cloud processing power will enable AR and VR developers to take their projects to the next level. Expect to see bigger, more detailed and immersive virtual worlds. For AR and VR apps to realize their potential, data needs to be rendered at the moment of decision-making. Lag and latency take users out of what’s intended to be the pinnacle of immersive gaming. The speeds of 5G will trigger a momentous evolution for AR and VR gaming.

CAN MOBILE GAMING OVERTAKE CONSOLES?

Smartphones provide game developers with the broadest platform and userbase. The bolstered processing power provided by smartphones with 5G will enable mobile devices to provide graphics on par with consoles. However, before mobile gaming can dethrone console gaming in terms of popularity, there are a few roadblocks.

While some major console games are available on mobile devices, the vast majority are not. Gamers are not at the point where they expect the same games on their mobile devices. Until game developers can effectively transfer major franchises to mobile devices, console gaming will remain king.

One of the major obstacles facing mobile gaming is the controller. iOS and Android touch screens simply cannot match the precision of playing on an Xbox Series X or PS5. Gamepads like the Backbone One latch onto smart devices to enable more fluid controls, but they also take away the mobile aspect of games since they are arduous to carry. Furthermore, they require every game to map inputs to each controller’s layout. The controller poses a simple but major problem and until it’s addressed, console gaming will provide more reliable experiences.

Cloud-Powered Microdroid Expands Possibilities for Android App Developers

Android developers have a lot to look forward to in 2021, 2022, and beyond. Blockchain may decentralize how Android apps are developed, Flutter will see increased adoption for cross-platform development, and we expect big strides in AR and VR for the platform. Among the top trends in Android development, one potential innovation has caught the attention of savvy app developers: Microdroid.

Android developers and blogs were astir earlier this year when Google engineer Jiyong Park announced via the Android Open Source Project that they are working on a new, minimal Android-based Linux image called Microdroid.

Details about the project are scant, but it’s widely believed that Microdroid will essentially be a lighter version of the Android system image designed to function on virtual machines. Google is preparing for a world in which even smartphone OS’s require a stripped-down version that can be run through the cloud.

Working from a truncated Linux, Microdroid will pull the system image from the device (tablet or phone), creating a simulated environment accessible from any remote device. It has the ability to enable a world in which users can access Google Play and any Android app using any device.

What does this mean for developers?

Microdroid will open up new possibilities for Android apps in embedded and IoT spaces which require potentially automated management and a contained virtual machine which can mitigate security risks. Cloud gaming, cloud computing—even smartphones with all features stored in the cloudare possible. Although we will have to wait and see what big plans Google has for Microdroid and how Android developers capitalize on it, at this juncture, it’s looking like the shift to the cloud may entail major changes in how we interact with our devices. App developers are keen to keep their eyes and heads in the cloud.

Although no timeline for release has been revealed yet, we expect more on Microdroid with the announcement of Android 12.

AIoT: How the Intersection of AI and IoT Will Drive Innovation for Decades to Come

We have covered the evolution of the Internet of Things (IoT) and Artificial Intelligence (AI) over the years as they have gained prominence. IoT devices collect a massive amount of data. Cisco projects by the end of 2021, IoT devices will collect over 800 zettabytes of data per year. Meanwhile, AI algorithms can parse through big data and teach themselves to analyze and identify patterns to make predictions. Both technologies enable a seemingly endless amount of applications retained a massive impact on many industry verticals.

What happens when you merge them? The result is aptly named the AIoT (Artificial Intelligence of Things) and it will take IoT devices to the next level.

WHAT IS AIOT?

AIoT is any system that integrates AI technologies with IoT infrastructure, enhancing efficiency, human-machine interactions, data management and analytics.

IoT enables devices to collect, store, and analyze big data. Device operators and field engineers typically control devices. AI enhances IoT’s existing systems, enabling them to take the next step to determine and take the appropriate action based on the analysis of the data.

By embedding AI into infrastructure components, including programs, chipsets, and edge computing, AIoT enables intelligent, connected systems to learn, self-correct and self-diagnose potential issues.

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One common example comes in the surveillance field. Surveillance camera can be used as an image sensor, sending every frame to an IoT system which analyzes the feed for certain objects. AI can analyze the frame and only send frames when it detects a specific object—significantly speeding up the process while reducing the amount of data generated since irrelevant frames are excluded.

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While AIoT will no doubt find a variety of applications across industries, the three segments we expect to see the most impact on are wearables, smart cities, and retail.

WEARABLES

Wearable-IoT-Devices

The global wearable device market is estimated to hit more than $87 billion by 2022. AI applications on wearable devices such as smartwatches pose a number of potential applications, particularly in the healthtech sector.

Researchers in Taiwan have been studying the potential for an AIoT wearable system for electrocardiogram (ECG) analysis and cardiac disease detection. The system would integrate a wearable IoT-based system with an AI platform for cardiac disease detection. The wearable collects real-time health data and stores it in a cloud where an AI algorithm detects disease with an average of 94% accuracy. Currently, Apple Watch Series 4 or later includes an ECG app which captures symptoms of irregular, rapid or skipped heartbeats.

Although this device is still in development, we expect to see more coming out of the wearables segment as 5G enables more robust cloud-based processing power, taking the pressure off the devices themselves.

SMART CITIES

We’ve previously explored the future of smart cities in our blog series A Smarter World. With cities eager to invest in improving public safety, transport, and energy efficiency, AIoT will drive innovation in the smart city space.

There are a number of potential applications for AIoT in smart cities. AIoT’s ability to analyze data and act opens up a number of possibilities for optimizing energy consumption for IoT systems. Smart streetlights and energy grids can analyze data to reduce wasted energy without inconveniencing citizens.

Some smart cities have already adopted AIoT applications in the transportation space. New Delhi, which boasts some of the worst traffic in the world, features an Intelligent Transport Management System (ITMS) which makes real-time dynamic decisions on traffic flows to accelerate traffic.

RETAIL

AIoT has the potential to enhance the retail shopping experience with digital augmentation. The same smart cameras we referenced earlier are being used to detect shoplifters. Walmart recently confirmed it has installed smart security cameras in over 1,000 stores.

smart-shopping-cart

One of the big innovations for AIoT involves smart shopping carts. Grocery stores in both Canada and the United States are experimenting with high-tech shopping carts, including one from Caper which uses image recognition and built-in sensors to determine what a person puts into the shopping cart.

The potential for smart shopping carts is vast—these carts will be able to inform customers of deals and promotion, recommend products based on their buying decisions, enable them to view an itemized list of their current purchases, and incorporate indoor navigation to lead them to their desired items.

A smart shopping cart company called IMAGR recently raised $14 million in a pre-Series A funding round, pointing toward a bright future for smart shopping carts.

CONCLUSION

AIoT represents the intersection of AI, IoT, 5G, and big data. 5G enables the cloud processing power for IoT devices to employ AI algorithms to analyze big data to determine and enact action items. These technologies are all relatively young, and as they continue to grow, they will empower innovators to build a smarter future for our world.

Can Cloud Integration Take Your App to the Next Level?

In continuation of our exploration of the top 5 app development trends for 2016, this week we will be exploring cloud integration. Check out our master list in our blog App to the Future and be on the lookout for next week’s blog when we explore Security.

While the ethereal nature of the cloud makes it a mystery to many consumers, the cloud has engrained itself in businesses across the globe. Studies show the global market for cloud equipment will reach $79.1 billion by the year 2018.

A lot has changed since we last tackled the cloud in our 2013 blog What Can Cloud-Based Mobile App Development Do For Your Company? The aspects which haven’t changed are the basics: the cloud reduces operating costs by taking the computing load off of local and dedicated servers, it improves collaboration, and it fosters a streamlined collaborative environment.

CLOUD FOR CONSUMER USE

In the past 5 years, Amazon, Google and Apple have all monetized clouds for consumer use. These cloud offerings break up into two categories:

PUBLIC CLOUD: iCloud, Google Drive and Amazon Web Services, in addition to Dropbox and Box, all offer public cloud storage offerings. These clouds are accessible to the public through the Internet.

PRIVATE CLOUD: While the public cloud is available on the public web, the private cloud is designed for a single organization. These offerings are often crafted by cloud providers such as Rackspace, VMware, Microsoft and OpenStack.

HYBRID CLOUD ADOPTION

One of the major cloud trends in the past few years has been the adoption of the hybrid cloud. The hybrid cloud uses a mix of on-premises, private cloud and the public cloud to customize storage needs. Hybrid cloud adoption jumped from 74% in 2014 to 82% in 2015. The hybrid cloud has gained popularity because it allows businesses to section off their storage needs and leverage the advantages of the private cloud and the public cloud while keeping the disadvantages at bay.

CLOUD INTEGRATION

One of  the most interesting trends in the cloud for mobile developers is cloud integration. Device integration entails that multiple applications share data in the cloud and communicate either directly or through third-party software.

A great test case is Apple’s use of the iCloud to promote device continuity. Apple uses the iCloud to make sure files and apps which are synced to the user’s MacBook are also synced to iPhone, iPads, and Apple Watch. This allows the user to alternate between devices seamlessly and encourages them to buy Apple products.

For app developers, cloud integration is a major trend within the industry. With Apple leading the charge, many app developers and their clients want their iOS apps to integrate with iCloud with the intention of luring users to download apps on multiple devices and use them seamlessly. Cloud-integrated apps represent an investment in both time and money for developers.  In order to justify the effort, the app should appeal to tablet, smartphone, and perhaps also desktop users. Cloud integration represents a major opportunity for developers to increase brand continuity by creating a user experience which is consolidated across devices and informed by data across the enterprise.

Learn more about device integration with the iCloud via Apple’s Developer website.

For those with their sights set on cloud integration, here are some of the best third-party cloud data integration software options on the market:

Jitterbit

Zapier

Microsoft Azure

Informatica Cloud Integration

App to the Future: Top 5 App Development Trends for 2016

Over the next five weeks, the Mystic Media Blog will be launching a series exploring the top app development trends for 2016 and featuring apps that demonstrate the ways in which each trend can be creatively applied. While this article will introduce you to each of the top trends, be on the lookout in the coming weeks for our in-depth expansion upon each individual trend.

With apps having amassed significant popularity over the past few years, many businesses are looking to enter the arena and develop their own app. Some apps are designed to generate revenue on their own, while others are built to support internal or eCommerce business processes. One would be hard-pressed to find a business which wouldn’t receive a boost by a well-developed app.

As we embark on 2016, it’s vital to consider the future of app development when investing in the creation of an app. Here are the top app development trends to look out for in 2016:

1. Cross-Platform Development

A business cannot control the devices which its customers and employees utilize. Between smartphones, tablets, computers, and now wearable devices, it’s vital to create apps with cross-platform functionality to ensure they are accessible by the widest range of users.

2. Cloud Integration

The cloud represents a major technological advancement over the past few years. With Apple, Google, and Amazon all monetizing clouds for consumer use, expect cloud integration to rise in popularity in 2016. The cloud will allow apps to sync data from various devices, making them a major tool to aid cross-platform development.

3. Emphasis on Security

In 2015, several massive data thefts took place, including 87 million patient records from Anthem and 21.5 million security clearance apps from the U.S. Office of Personnel Management. The European Union is currently crafting a General Data Protection Regulation designed to strengthen and unify data protection. Security will be a major concern for app development in 2016, especially for large businesses and government agencies.

4. Internet of Things

The Internet of Things (IoT) has gained traction with the advent of wearable devices. IoT attracts value on a case-by-case basis with specific IoT components designed to solve a specific problem. For those unfamiliar with IoT, here’s an awesome introductory video by Intel:

IoT has emerged as a major area of growth in the tech world which will only continue to expand in 2016. One study by IDC shows IoT spending will reach $1.7 trillion in 2020.

5. M-Commerce

With Paypal facing competition from Venmo, Apple Pay, Android Pay, and more, mobile commerce has become the norm. As consumers seek easier payment methods, app developers in 2016 will be working toward designing apps with safer, faster, easier transaction processing.

Mystic Media is an Android & iOS app development, web design and strategic marketing firm located in Salt Lake City, Utah. Contact us today by clicking here or by phone at 801.994.6815.