Aim/Purpose: This paper investigates the influence of university student multitasking on their learning success, defined as students’ learning satisfaction and performance. Background: Most research on student multitasking finds student multitasking problematic. However, this research is generally from 2010. Yet, today’s students are known to be digital natives and they have a different, more positive, relationship with mobile technologies. Based on the old findings, most instructors ban mobile technology use during instruction, and design their online courses without regard for the mobile technology use that happens regardless of their ban. This study investigates whether today’s instructors and learning management system interface designers should take into account multitasking with mobile technologies. Methodology: A quasi-experimental design was used in this study. Data were collected from 117 students across two sections of an introductory Management Information Systems class taught by the first author. We took multiple approaches and steps to control for confounding factors and to increase the internal validity of the study. We used a control group as a comparison group, we used a pre-test, we controlled for selection bias, and we tested for demographic differences between groups. Contribution: With this paper, we explicated the relationship between multitasking and learning success. We defined learning success as learning performance and learning satisfaction. Contrary to the literature, we found that multitasking involving IT texting does not decrease students’ learning performance. An explanation of this change is the change in the student population, and the digital nativeness between 2010s and 2020 and beyond. Findings: Our study showed that multitasking involving IT texting does not decrease students’ performance in class compared to not multitasking. Secondly, our study showed that, overall, multitasking reduced the students’ learning satisfaction despite the literature suggesting otherwise. We found that attitude towards multitasking moderated the relationship between multitasking and learning satisfaction as follows. Individuals who had a positive attitude towards multitasking had high learning satisfaction with multitasking. However, individuals who had positive attitude toward multitasking did not necessarily have higher learning performance. Recommendations for Practitioners: We would recommend both instructors and the designers of learning management systems to take mobile multitasking into consideration while designing courses and course interfaces, rather than banning multitasking, and assuming that the students do not do it. Furthermore, we recommend including multitasking into relevant courses such as Management Information Systems courses to make students aware of their own multitasking behavior and their results. Recommendation for Researchers: We recommend that future studies investigate multitasking with different instruction methods, especially studies that make students aware of their multitasking behavior and its outcomes will be useful for next generations. Impact on Society: This paper investigates the role of mobile multitasking on learning performance. Since mobile technologies are ubiquitous and their use in multitasking is common, their use in multitasking affects societal performance. Future Research: Studies that replicate our research with larger and more diverse samples are needed. Future research could explore research-based experiential teaching methods, similar to this study.

Aim/Purpose: The digital ecosystem has contributed to the acceleration of digital and mobile educational tools across institutions worldwide. The research displays educators’ perspectives on web applications on mobile devices that can be used to engage and challenge students while impacting their learning. Background: Explored are elements of technology in education and challenges and successes reported by instructors to shift learning from static to dynamic. Methodology: Insights for this study were gained through questionnaires and focus groups with university educators in the United Arab Emirates. Key questions addressed are (1) challenges/benefits, (2) types of mobile technology applications used by educators, and (3) strategies educators use to support student learning through apps. The research is assisted by focus groups and a sample of 42 completed questionnaires. Contribution: The work contributes to web/mobile strategic considerations in the classroom that can support student learning and outcomes. Findings: The results reported showcase apps that were successfully implemented in classrooms and provide a perspective for today’s learning environment that could be useful for instructors, course developers, or any educational institutions. Recommendations for Practitioners: Academics can integrate suggested tools and explore engagement and positive associations with tools and technologies. Recommendation for Researchers: Researchers can consider new learning applications, mobile devices, course design, learning strategies, and student engagement practices for future studies. Impact on Society: Digitization and global trends are changing how educators teach, and students learn; therefore, gaps need to be continually filled to keep up with the pace of ever-evolving digital technologies that can engage student learning. Future Research: Future research may focus on interactive approaches toward mobile devices in higher education learning and shorter learning activities to engage students.

This study examines diverse information media in order to identify those formats that are most suitable for consumption via handheld mobile devices, namely, smartphones and tablets. The preferences of the users are measured objectively by analyzing actual data of their relative use of handheld mobile devices and personal computing (PC) desktop devices, including laptops and notebooks, for consumption of information presented in various formats. Our findings are based on Google Analytics pageview data of five course Websites during a period of three semesters, by 11,557 undergraduate students. M-learning contexts were chosen, since in a learning environment the interests of information providers (i.e., the instructors) are in accord with those of the information consumers (i.e., the students), whereas in commercial settings there may be conflicts of interests. Our findings demonstrate that although about 90% of the pageviews were via PC devices, the rate of smartphone use for consuming learning content in diverse information media is gradually increasing as time goes by, whereas the rate of tablet use for these purposes is stagnant. The most promising direction for smartphone development, emanating from the findings, is online video content.

RetailTechnologyReview.com spoke with Adrian Lawson, managing director of independent software vendor (ISV) Waizu, about how the company’s solutions are geared to helping organisations avoid the costly loss or misplacement of their mobile devices, thereby keeping their assets active and accountable and their workers fully productive.

Anyone accessing My Catawba County will be able to choose from a selection of informational links and County applications. The application was developed for mobile devices with a web browser such as iPad, iPhone, Android phones and tablets.

A new service developed at Binghamton University, State University of New York could improve performance of mobile devices that save data to the cloud.

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The mobile training aims to shake up the notion of traditional compliance training, making it widely accessible and highly interactive, even in remote locations. 

Job safety audits can mitigate the risk of accidents. But many rely on slow processes designed with compliance.

BGA SSD solutions to improve storage performance with ARMTM servers and ARMTM-embedded devices including gaming smartphones, ultrathin laptops, automotive, and other smart industrial equipment

Insight Works offers a fast and effective WMS solution to ditch outdated paper-based processes and move to a robust mobile and barcode scanning system, which allows businesses to swiftly enhance warehouse accuracy and productivity.

Cybersecurity With Robust Threat Protection for Mobile Game Apps

Framework for combating the use of stolen mobile devices

[Capital FM] Nairobi -- Passengers entering Kenya will soon be required to declare their mobile phones, including their International Mobile Equipment Identity (IMEI) numbers, as part of a new compliance measure by the Kenya Revenue Authority (KRA).

By Anthony Jefferson, freelance writer.

Rugged devices play a significant role in performing regular operations in the industries like high-tech, manufacturing, shipping, mining, construction, real estate, logistics, supply chain and transportation.

Nov. 8, 2024 — Barcelona Supercomputing Center‘s Innostroke project aims to transform the prevention and monitoring of stroke, one of the leading causes of death and disability worldwide, through artificial […]

The post BSC Develops AI Model to Predict Stroke Risk Using Mobile Devices appeared first on HPCwire.

Smartphones hold increasing amounts of sensitive personal data, so every device is now a mixed-use device. As a result, businesses must protect employee privacy as fiercely as corporate security.

Popular television streaming service adds 30A TV to subscribers choice

Now all of your favorite ALLACCESS.COM content is always current and available in the palm of your hand on your mobile device with an optimized, responsive layout. Use the horizontal slider … more

Earlier this week, Adobe VP and General Manager Danny Winokur disclosed that the company has concluded that HTML5 is ”the best solution for creating and deploying content in the browser across mobile platforms.” The company said it would stop building Flash to run on mobile browsers. In a blog post on the new focus of Read the rest...

Neural style transfer is a well-known branch of deep learning research, with many interesting works and two major drawbacks. Most of the works in the field are hard to use by non-expert users and substantial hardware resources are required. In this work, we present a solution to both of these problems. We have applied neural style transfer to real-time video (over 25 frames per second), which is capable of running on mobile devices. We also investigate the works on achieving temporal coherence and present the idea of fine-tuning, already trained models, to achieve stable video. What is more, we also analyze the impact of the common deep neural network architecture on the performance of mobile devices with regard to number of layers and filters present. In the experiment section we present the results of our work with respect to the iOS devices and discuss the problems present in current Android devices as well as future possibilities. At the end we present the qualitative results of stylization and quantitative results of performance tested on the iPhone 11 Pro and iPhone 6s. The presented work is incorporated in Kunster - AR Art Video Maker application available in the Apple's App Store.

Methods, apparatuses and articles of manufacture for use in a mobile device to determine whether a dynamic user profile is to transition from a first state to a second state based, at least in part, on one or more sensed indicators. The dynamic user profile may be indicative of one or more current inferable user behavior contexts for a user co-located with the mobile device. The mobile device may transition a dynamic user profile from a first state to a second state, in response to a determination that the dynamic user profile is to transition from the first state to the second state, and operatively affect one or more functions performed, at least in part, by the mobile device based, at least in part, on the transition of the dynamic user profile to the second state.

Various methods, apparatuses and/or articles of manufacture are provided which may be implemented to estimate a trajectory of a mobile device within an indoor environment. In some embodiments, the trajectory may be estimated without the use of any signal-based positioning information. For example, a mobile device may estimate such a trajectory based, at least in part, on one or more sensor measurements obtained at the mobile device, and further affect the estimated trajectory based, at least in part, on one or more objects identified in an electronic map of the indoor environment.

In a case where a communication device belongs to a first wireless network for the communication device to execute a wireless communication, the communication device may execute using a wireless communication with a mobile device via the first wireless network after sending to the mobile device a first wireless setting. The first wireless setting may be for the mobile device to belong to the first wireless network and include a password. In a case where the communication device belongs to a second wireless network for the communication device to execute a wireless communication, the communication device may execute a wireless communication with the mobile device via the second wireless network after sending to the mobile device a second wireless setting. The second wireless setting may be for the mobile device to belong to the second wireless network and not including the password.

A method and apparatus in which multiple Internet Protocol (IP) based wireless data transmissions are simultaneously provided between a wireless device and a server, including providing multiple antennas, multiple T/R units, multiple processors and multiple I/O ports on the wireless device. The method includes receiving multiple IP data packets on the I/O ports at substantially the same time, and sending multiple data packets from the wireless device to the server, whereby the transmission rate between the wireless device and the server is increased.

A 3D image sensor includes a depth pixel that includes; a photo detector generating photo-charge, first and second floating diffusion regions, a first transfer transistor transferring photo-charge to the first floating diffusion region during a first transfer period in response to a first transfer gate signal, a second transfer transistor transferring photo-charge to the second floating diffusion region during a second transfer period in response to a second transfer gate signal, and an overflow transistor that discharges surplus photo-charge in response to a drive gate signal. Control logic unit controlling operation of the depth pixel includes a first logic element providing the first transfer gate signal, a second logic element providing the second transfer gate signal, and another logic element providing the drive gate signal to the overflow transistor when the first transfer period overlaps, at least in part, the second transfer period.

Monitoring user activity on a mobile device is described. In one aspect, video content is received and played to a user of the mobile device. The monitoring activity detects an interruption of playback of the video content and determines an event associated with the interruption. The event is stored in the mobile device and communicated to a remote device.

This provides for controlling mobile device functions and features. For example, it limits or disables the use of some of mobile device features which could cause distraction to the user, when the user is engaged in another activity. In an example, it enables other mobile device features based on occurrence of events related to the user or environment. Another example addresses controlling the mobile device features, such as SMS, while the user is in a vehicle or driving. Another example restricts the ability of the driver of a vehicle to text, while the vehicle is in motion, by automatically disabling the texting ability of mobile device within and around the perimeter of the driver's seat. Other variations, examples, improvements, detection mechanisms, models, techniques, calculations, verification mechanisms, and features are also described in details.

An apparatus for mounting a mobile device on a tripod includes a frame with a rigid peripheral member defining an opening therethrough. The peripheral member includes a mount configured to releasably couple the frame to the tripod. An insert is sized and shaped to be placed into the opening of the frame and releasably engage at least a portion of the peripheral member in an assembled configuration. The insert has a membrane in the form of a cavity configured to releasably receive and support the mobile device. The membrane extends over at least a portion of the opening of the frame in the assembled configuration and includes at least one camera hole extending therethrough that is aligned with a camera lens of the mobile device when the mobile device is mounted in the cavity.

A mobile device utilizes an embedded near field communication (NFC) capability to interact with a contactless transaction card to automatically obtain information from the card, e.g. reducing or eliminating the burden of manual user entry of the account information or the like into the mobile device. The mobile device, for a financial account transaction example, may read the information from the card at the time of a transaction, e.g. to facilitate an on-line purchase, an in-store purchase, ATM transaction or the like. The mobile device may store the information from one or more contactless transaction cards, for use in future transactions of various types. The mobile device and/or a server in communication with the mobile device may track various user activities on the mobile device that also utilize information obtained from the contactless transaction card.

A mobile wireless device maintains a radio sector database. When receiving no response or a negative response from a radio sector to a transmitted signaling message, the mobile wireless device adds or updates the radio sector database. When receiving a positive response from the radio sector, the mobile wireless device deletes the radio sector from the radio sector database. Before transmitting signaling messages to a radio sector, the mobile device determines a time delay value if the radio sector is in the radio sector database. The mobile wireless device discards the signaling message when an elapsed time since a most recently transmitted signaling message to the radio sector does not exceed the determined time delay value. In an embodiment, each radio sector in the radio sector database includes a failure count value, and the determined time delay value depends on the failure count value.

A mobile device case includes a reel assembly, including a reel, a supporting plate, and a hub between the reel and the supporting plate. The hub includes a first cavity between the hub and the supporting plate for housing a spring, and a second cavity between the hub and the reel for housing a flat flexible cable (FFC). The spring is wound in a first direction, while the FFC is wound in a second direction. The FFC includes a first end for electrically coupling to a female jack connector of a device. A female connector is electrically coupled to a second end of the FFC for engaging a male jack connector of user-provided headphones. When the reel rotates in the first direction, the spring tightens and the FFC loosens. When the reel rotates in the second direction, the spring loosens and the FFC tightens.

A speaker diaphragm of the present invention is formed by mixing polylactic acid as a plant-derived resin, bamboo fibers and a natural binder. It is thereby possible to realize a speaker diaphragm capable of obtaining sufficient sound velocity, while having low environmental load and high sound quality.

Embodiments of the disclosure provide a method and an apparatus for capturing a screen on a mobile device, the method including: receiving, at the mobile device, a screen-capturing request for a current interface, where the current interface includes first data, and the first data includes personal information; and generating, according to screen-capturing request, a screen capture image for the current interface, where the first data in the current interface is replaced in the screen capture image with second data which is predefined. These embodiments avoid the need to manually mask an image by starting a dedicated image editing tool to anonymize a screen capture image, thereby significantly lowering the relatively high technical threshold of anonymization processing, reducing the error rate, and improving the modification quality of anonymization. Moreover, the replacement is directly made to the image while the screen is captured without interfering with normal use of reading.

A method of simulating print color on mobile devices, comprising: obtaining a second group of tristimulus values by a chromaticity measuring device through a measuring method; creating a CIEXYZ color space of the mobile device by the second group of tristimulus values, and transforming the CIEXYZ color space to a sRGB color space via a 1D lookup table and a transformation matrix; obtaining a print color from a ICC profile of an output device by 3D lookup table and generating a second color calibrated profile by finding another color, similar to the print color from the ICC profile of the output device, in the sRGB color space through tone mapping; and simulating the print color on a screen of the mobile device by using the second color calibrated profile, whereby the user can directly preview the printed photo on the screen thereby achieving saving print ink and time.

The subject matter discloses an apparatus for securing a mobile device to a steering wheel, comprising: a main flap connected to a rear surface of the mobile device, said main flap is made of a rigid material; a holder attached to the main flap, said holder secures the mobile device to the main flap; an elliptic unit extending from the main flap and surrounding the steering wheel. The apparatus may be part of a kit that also comprises a second holder attached to the rear surface of the mobile device, said second holder is in contact with the first holder.

An alarm system including an alarm panel, a sensor operatively connected to the alarm panel and operable to detect alarm events, and a communicator module operatively connected to the alarm panel and operable to capture signals transmitted by mobile devices within a predefined area, extract mobile device identifiers from the signals, and record the mobile device identifiers in an active device identifier list that is maintained in a memory associated with the communicator module.

SquadCast's version 2 brings new support for more browsers and even mobile devices! Plus, more accessible pricing.

Obtain, run, and extend a Node.js starter application that uses the IBM Cloud Geospatial Analytics service. With the Geospatial Analytics service, you can monitor moving devices from the Internet of Things. The service analyzes a device message stream from MQTT and tracks device locations in real time with respect to one or more geographic regions.

IBM has implemented a cloud-based enterprise mobility management and security solution at Arrow International.

Mobile devices are ubiquitous in children’s lives, but how caregivers and children use them in everyday situations, and how use of devices affects caregiver–child interactions, has not been studied.

In naturalistic mealtime observations, we documented the behavior of many caregivers whose attention was highly absorbed in their mobile devices, with varying child reactions to this absorption. This study raises several hypotheses about mobile device use and caregiver-child interaction. (Read the full article)

Students report that schools' filters, firewalls, and blockage of social media sites are obstacles to their use of educational technology.

  When it comes to choosing a browser for your android device, chrome is a no-brainer. Here are a few tips to make your experience even better: Preload webpages Chrome can help you render webpages f...

Four individuals have been charged in the Northern District of Georgia for their alleged roles in piracy groups engaged in the illegal distribution of copies of copyrighted Android mobile device applications, or “apps.”

The leader of a piracy group engaged in the illegal distribution of copies of copyrighted Android mobile device applications and a co-conspirator have pleaded guilty for their roles in the scheme that distributed more than one million copies of copyrighted apps.

Members of two different piracy groups engaged in the illegal distribution of copies of copyrighted Android mobile device applications have pleaded guilty for their roles in separate schemes, each designed to distribute more than one million copies of copyrighted apps.

Three federal indictments were unsealed today in the Northern District of Georgia charging six members of three different piracy groups – Appbucket, Applanet and SnappzMarket – for their roles in the illegal distribution of copies of copyrighted Android mobile device applications, or “apps,” announced Assistant Attorney General Leslie R. Caldwell of the Justice Department’s Criminal Division, U.S. Attorney Sally Quillian Yates of the Northern District of Georgia, and Special Agent in Charge J. Britt Johnson of the FBI’s Atlanta Field Office

Yokogawa Electric Corporation (TOKYO: 6841) and MetaMoJi Corporation announce that they have jointly developed SensPlus Note, a low cost and easy to implement solution for the digitization of plant data on mobile devices. SensPlus Note, a solution in Yokogawa's OpreX Operation and Maintenance Improvement family, improves the efficiency and quality of maintenance work and the precision of post-maintenance analyses by enabling data from plant field work to be used more efficiently. This solution will be released in all markets worldwide on January 31.