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Trackball

A trackball is a pointing device consisting of a ball housed in a socket that users rotate with their fingers, thumb, or palm to control the movement of a cursor on a computer screen. Unlike a traditional mouse, which slides across a surface, the trackball remains stationary while internal sensors—typically optical or mechanical—detect the ball's rotation along two axes (X and Y) and translate it into on-screen motion.^[1] This design allows for precise cursor control without requiring the device to be lifted or repositioned.^[2] The trackball's origins trace back to military applications in the mid-20th century. In 1946, British engineer Ralph Benjamin invented the first trackball, dubbed the "roller ball," as part of a radar plotting system for the Comprehensive Display System (CDS) during post-World War II development; it was patented in 1947 but remained a classified military secret and was not publicly released.^[3] A more advanced and practical iteration emerged around 1951 from a team at Ferranti Electric in Toronto, Canada, for the Royal Canadian Navy's DATAR (Digital Automated Tracking and Resolving) project—a groundbreaking computerized system for real-time tactical data display using radar and sonar inputs.^[4] This version, which utilized a five-pin bowling ball on air bearings for smooth operation, was successfully tested during sea trials on Lake Ontario in 1953, marking one of the earliest uses of digital input devices in computing.^[4]^[5] Trackballs gained prominence in computing from the 1960s onward, appearing in early computer terminals, portable devices before the widespread adoption of touchpads, and specialized systems like CAD workstations for their high precision.^[5] They also featured in arcade games, such as Atari's Missile Command (1980) and Williams' Marble Madness (1984), where large trackballs provided intuitive control for gameplay.^[5] In modern contexts, trackballs are valued for ergonomic benefits, including reduced wrist and arm strain compared to mice—helping prevent repetitive strain injuries (RSI)—and their compact footprint, which requires minimal desk space and works on any surface.^[2] Companies like Logitech and Kensington continue to produce thumb-operated and finger-operated models, often with customizable buttons and scroll wheels, catering to users in professional, gaming, and accessibility applications.^[2]

Design and Operation

Components

A trackball's core component is its stationary ball, typically ranging from 1 to 2 inches (25 to 50 mm) in diameter, which users rotate to control cursor movement.^[6] The ball is housed within a socket or enclosure that secures it while allowing free rotation, often constructed from durable materials like aluminum to withstand environmental stresses such as expansion and contraction.^[7] Common ball materials include rubber-coated steel for enhanced grip, phenolic resin for scratch resistance and durability in industrial settings, and plastic or epoxy resin variants that provide a smooth surface and balanced weight.^[8]^[9]^[10] Sensor mechanisms detect the ball's rotation to translate it into X-Y coordinates. In mechanical models, internal rollers or wheels contact the ball, spinning along perpendicular axes to measure movement; these connect to axles that generate electronic signals via rotating wheels.^[8] Optical models, in contrast, employ LEDs to illuminate the ball's surface—often patterned for tracking—and a small camera or photodetector array to capture images of the rotation, processing changes in light patterns to determine motion without physical contact.^[8]^[11] User interfaces include integrated buttons mimicking left and right mouse clicks, typically numbering two to five for primary actions like selecting or contextual menus.^[8] Scroll functionality is provided by wheels, rings encircling the ball, or dedicated buttons, enabling vertical and horizontal navigation.^[12] Connection options encompass wired ports such as USB or legacy PS/2, alongside wireless protocols like Bluetooth for multi-device pairing.^[8]^[12] Build variations emphasize ergonomics and portability, with thumb-operated designs positioning the ball on the side for thumb control in a palm-held form factor, and finger-operated models placing it centrally for index or middle finger manipulation in a more desktop-oriented setup.^[13] Size differences range from compact fingertip versions (under 1 inch ball) for precision tasks to larger palm-sized units (over 1.5 inches) for broader movements, incorporating internal circuitry and wiring to process sensor data into digital signals.^[14]^[8]

Functionality

A trackball functions as an inverted pointing device where the user manipulates a protruding ball with their finger or thumb to control the on-screen cursor, while the device itself remains stationary on the desk. The ball, typically made of rubber or plastic for grip, rotates freely within a socket, and its movement is detected by internal sensors that translate rotational motion into directional signals along the X and Y axes. Unlike a traditional mouse, where the entire device slides across a surface, the trackball's design keeps the base fixed, allowing precise control without requiring additional workspace.^[15] In mechanical trackballs, the ball's rotation turns internal rollers or wheels connected to optical encoders, which generate electrical pulses as the ball moves; these pulses are counted to determine distance and direction. Modern optical trackballs employ LED or laser sensors that illuminate the ball's surface and capture successive images via a CMOS sensor, with a digital signal processor (DSP) analyzing changes in the reflected light patterns to compute motion vectors. The resolution of these systems is measured in dots per inch (DPI), typically ranging from 400 to 2000 DPI, enabling fine-tuned cursor movement based on the ball's rotation speed and distance.^[16]^[15]^[17] This stationary design offers advantages in precision and space efficiency, as users can make small, accurate adjustments to the ball without relocating the device, reducing the need for a large desk area. Some advanced models incorporate multi-axis support, such as additional sensors or scroll rings, facilitating 3D navigation in applications like CAD software by detecting rotation in a third dimension.^[17]^[18] Trackballs often include calibration features for sensitivity and acceleration, allowing users to adjust tracking speed through hardware DPI switches or software drivers that apply customizable acceleration curves to match preferences for tasks ranging from general navigation to high-precision work. These adjustments ensure the cursor response aligns with user input velocity, enhancing usability across different operating systems.^[19]^[20]

History

Invention and Early Development

The trackball was first invented in 1946 by British engineer Ralph Benjamin while working on a radar project for the Royal Navy Scientific Service. Benjamin developed the device, initially called a "roller ball," as part of the Comprehensive Display System (CDS), a fire-control radar plotting tool designed to enable ships to monitor and track low-flying aircraft by correlating electronic storage data with display coordinates. This innovation predated the computer mouse and addressed the limitations of joysticks in providing precise input for radar target tracking. The prototype featured a metal ball rolling on two rubber-coated wheels, and the device was patented in Britain in 1947 under Benjamin's name, though it remained classified as a military secret for several years.^[21]^[3] Independently, in 1952, a team of engineers including Tom Cranston, Fred Longstaff, and British electrical engineer Kenyon Taylor developed another trackball for the Royal Canadian Navy's DATAR (Digital Automated Tracking and Resolving) project. This early computerized anti-submarine warfare and battlefield visualization system required an intuitive input mechanism to control radar displays and simulate naval engagements, leading to the creation of a trackball using a standard five-pin bowling ball as the rolling element, supported by an air cushion. The design emphasized durability and precision for military applications, marking a significant step in integrating pointing devices with digital computing.^[3]^[22] The DATAR trackball received its first notable demonstration during successful sea trials on Lake Ontario in the autumn of 1953, showcasing its effectiveness in real-time radar control and collaborative simulation across networked ships. This event highlighted the device's potential beyond secrecy, though widespread public awareness would come later. Trackball specifics trace directly to Benjamin's 1947 filings.^[3]

Commercial Adoption and Evolution

The trackball gained initial commercial traction in the early 1980s through its integration into arcade gaming hardware, where it provided intuitive control for fast-paced action. Atari's Centipede, released in 1981, featured a prominent trackball as the primary input device, allowing players to maneuver a shooter at the screen's base while fending off descending insects; this marked one of the first widespread consumer exposures to the technology in entertainment venues.^[23] The device's popularity in arcades helped demonstrate its reliability for precise, non-planar movement, paving the way for broader adoption beyond military and industrial prototypes. By the late 1980s and into the 1990s, trackballs entered the personal computing market as viable alternatives to mice, particularly in professional and portable contexts. Logitech introduced its first trackball, the thumb-operated TrackMan, in 1989, emphasizing ergonomic benefits for desktop use and quickly becoming a staple for users seeking stationary pointing solutions.^[24] Similarly, Kensington launched the TurboMouse in 1989, followed by the Expert Mouse in the mid-1990s, which featured a large 55mm ball and scroll ring for enhanced precision in tasks like computer-aided design (CAD) and graphic work; these models were widely adopted in creative industries during the decade, with Kensington's products often cited for their durability in high-volume professional environments.^[25] Trackballs also appeared in early laptops, such as Apple's Macintosh Portable in 1989, where a built-in trackball served as the pointing mechanism to accommodate space constraints without requiring external devices.^[26] The 2000s brought technological refinements to trackballs amid shifting market dynamics, including the rise of wireless connectivity and Bluetooth integration, which improved portability and compatibility with emerging devices. Kensington expanded its Expert Mouse line with wireless variants around 2015, building on earlier cordless experiments, while Logitech released the Wireless Trackball M570 in 2010, incorporating a sculpted thumb design for prolonged use.^[27] However, overall market share declined as optical mice proliferated in the late 1990s and early 2000s, offering maintenance-free operation and broader appeal for general computing.^[28] Despite this, trackballs experienced a resurgence in ergonomics-focused segments, driven by awareness of repetitive strain injuries; companies like Elecom, founded in 1986 and known for innovative peripherals, contributed with models tailored for precision tasks, reinforcing the device's niche in graphic design and CAD where stationary control reduced wrist strain.^[29] Logitech, Kensington, and Elecom emerged as dominant players, with 1990s sales peaking for applications requiring fine motor control, such as digital illustration and engineering drafting.^[30] In the 2010s and 2020s, trackballs continued to evolve with advanced features for professional and accessibility use. Logitech introduced the MX Ergo in 2017, a wireless thumb trackball with a tiltable design for customizable ergonomics. As of October 2025, Kensington announced the Expert Mouse TB800, a finger-operated model with optical tracking and rechargeable battery, targeting creative professionals. These developments underscore the ongoing niche appeal of trackballs in ergonomic computing.^[31]

Types and Variants

Mechanical Trackballs

Mechanical trackballs employ a physical ball that rotates internal rollers or wheels aligned along perpendicular X and Y axes to detect cursor movement. The exposed ball, typically made of hard plastic or rubber, is manipulated by the user, causing it to spin and drive the internal rollers, which in turn contact potentiometers for resistive position sensing or slotted wheels that interrupt optical sensors to generate movement signals. This friction-based system translates the ball's rotation into electrical inputs for the connected device, providing basic two-dimensional navigation without requiring the entire unit to move across a surface.^[32] These devices are constructed with robust housings of metal or high-grade plastic to withstand regular use, and common configurations include thumb-operated models where the ball is mounted on the side of the unit for one-handed control with the thumb while the fingers handle buttons. Such designs are particularly suited for stationary desktop setups, emphasizing durability over portability.^[33]^[34] Mechanical trackballs offer high durability in contaminated or industrial environments, such as manufacturing floors or marine applications, where they resist dust, moisture, and oils better than surface-moving alternatives due to the enclosed mechanism. However, they are susceptible to internal dust accumulation on the rollers, which can cause slippage and reduced responsiveness, necessitating periodic cleaning; their precision is generally lower than optical variants, with typical resolutions ranging from 200 to 800 DPI.^[35]^[36]^[37] Maintenance involves removing the ball—often by twisting a retainer ring or pressing an eject mechanism—to access the internal rollers for cleaning. Debris is cleared using compressed air or cotton swabs, followed by wiping the rollers and ball with isopropyl alcohol on a lint-free cloth to restore smooth operation; this process should be performed every few weeks in dusty conditions to prevent buildup.^[38]^[39]

Optical and Modern Variants

Optical trackballs employ a light-based sensing system where an LED or laser diode illuminates the underside of the rotating ball, which typically features a textured or patterned surface to generate distinct visual markers.^[40] A complementary metal-oxide-semiconductor (CMOS) sensor captures sequential images of this illuminated surface at high frame rates, allowing an integrated digital signal processor to analyze changes in the patterns and compute the ball's movement in multiple axes.^[11] This non-contact method eliminates mechanical wear from rollers, enabling smoother operation and higher precision, with high-end models supporting resolutions up to 3200 dots per inch (DPI) for fine cursor control.^[41] A representative example is the Logitech TrackMan Marble, which features a side-mounted ball for ergonomic thumb manipulation, allowing precise control without arm movement.^[33]^[34] Modern variants have expanded the traditional trackball form factor to include hybrid designs that blend trackball functionality with mouse ergonomics, such as the Elecom HUGE, which positions a large 52mm trackball on the side for index finger operation within a contoured, palm-supporting body.^[42] Multi-ball configurations, often featuring two or more independently controlled balls, facilitate enhanced navigation in three-dimensional environments, particularly for 3D modeling tasks where separate balls handle rotation, panning, and zooming.^[43] Haptic feedback integration, introduced in models post-2010, provides tactile vibrations or resistance through actuators in the ball or buttons, simulating physical interactions like texture or resistance in virtual simulations.^[44] Key innovations in contemporary trackballs include wireless connectivity via Bluetooth 4.0 LE, enabling low-latency pairing with multiple devices without cables, as seen in the Kensington Expert Mouse Wireless Trackball.^[45] Programmable buttons, configurable through dedicated software like KensingtonWorks, allow users to remap functions for macros, gestures, or application-specific commands across up to eight buttons.^[46] Some designs incorporate integration with touch surfaces, combining the trackball with adjacent capacitive pads for hybrid gesture input, enhancing versatility in multi-touch scenarios.^[47] Niche evolutions in the 2020s have produced zero-ball "trackball" simulations, where joysticks or virtual interfaces mimic trackball motion without a physical sphere; for instance, VR gaming peripherals use thumbstick algorithms or sensor fusion to replicate omnidirectional control in immersive environments.^[48] These adaptations, often embedded in controllers like Sony's patented foot-operated VR devices, prioritize portability and hygiene by avoiding direct contact with shared surfaces.^[49]

Applications

Desktop and Professional Use

In computer-aided design (CAD) and graphic design workflows, trackballs provide precise cursor control essential for tasks such as drawing straight lines or manipulating complex shapes in software like AutoCAD and Adobe Photoshop.^[17] This precision stems from the stationary design, allowing users to manipulate the ball with fingers or thumb without repositioning the device, which is particularly beneficial during extended sessions where traditional mice may cause arm fatigue.^[50] Devices like the Logitech MX Ergo have been adopted by drafters for their adjustable tilt and smooth tracking, enabling finer adjustments in 2D and 3D modeling compared to standard mice.^[51] In gaming and simulation environments, trackballs excel in scenarios requiring stable, high-precision input, such as flight simulators where they control turrets or camera views without desk space constraints. For instance, in IL-2 Sturmovik, users employ trackballs for accurate viewpoint panning during virtual flights, enhancing immersion without the need for sweeping mouse movements.^[52] They are also favored in real-time strategy (RTS) games for executing macro commands and resource management, as the thumb-operated models allow rapid scrolling across maps.^[53] Historically, arcade titles like Missile Command (1980) utilized large trackballs for intuitive aiming, influencing modern desktop adaptations in simulation software.^[54] For office productivity, trackballs integrate seamlessly with multi-monitor setups, facilitating efficient navigation between screens by enabling quick, inertial spins of the ball to traverse large virtual desktops.^[55] This feature boosts workflow in data-heavy applications, such as spreadsheets or document editing, where users can maintain cursor momentum without lifting the device. Trackballs are used in stationary workstations for precise interactions, prioritizing reliability over speed.^[56] Industrial applications leverage trackballs in control rooms for their durability and space efficiency, particularly in environments like air traffic control (ATC) where limited desk area and high reliability are critical. In ATC systems, trackballs enable controllers to manipulate radar displays and coordinate aircraft positions with minimal physical movement, comparable to mice in precision tasks according to human factors evaluations.^[57] Manufacturers such as Cursor Controls provide ruggedized models for these panels, ensuring consistent performance in 24/7 operations without the wear associated with sliding input devices.^[58]

Mobile and Embedded Devices

Trackballs found early integration in mobile devices during the 2000s, particularly in BlackBerry smartphones, where optical trackballs enabled precise thumb-based navigation for email, messaging, and app interfaces. The BlackBerry Pearl, released in 2006, introduced this feature as a replacement for the traditional scroll wheel, allowing users to scroll horizontally and vertically with a clickable translucent ball mounted on the device's front, which improved usability on compact QWERTY keyboards.^[59] This design became a hallmark of BlackBerry's mid-2000s lineup, including models like the 8800 and Curve series, facilitating quick cursor control in productivity-focused environments before the rise of full touch interfaces.^[60] In modern embedded systems, trackballs continue to serve in specialized portable applications, such as handheld GPS units for outdoor navigation, where they provide reliable input in glove-compatible or weather-exposed settings, though specific implementations vary by manufacturer. They are also prevalent in medical devices operating in sterile environments, including ultrasound systems from GE Healthcare, where sealed optical trackballs allow precise cursor control during imaging without compromising hygiene, as the devices support easy disinfection and resist contaminants.^[61] Similarly, trackballs integrate into IoT controllers and embedded panels for industrial monitoring, offering durable, low-profile pointing in compact systems resistant to dust and vibration.^[62] Adaptations in the smartphone era have shifted toward virtual trackballs within accessibility features, such as through developer tools like ADB commands (e.g., "input trackball roll") to simulate trackball input for navigating interfaces for visually impaired users without physical hardware.^[63] Physical mini-trackballs persist in niche rugged tablets and handhelds, providing tactile input for field operations where touchscreens falter. However, trackball use in mainstream mobile devices declined sharply after 2010, largely supplanted by capacitive touchscreens on iOS and Android platforms, which offered more intuitive multi-touch interactions and reduced mechanical failure rates associated with physical balls.^[64] Despite this, trackballs remain in select military PDAs and tactical handhelds, valued for gloved operation and precision in adverse conditions, as explored in studies on infantry input alternatives.^[65]^[64]

Ergonomics and Accessibility

Health Benefits

Trackballs offer significant ergonomic advantages by reducing repetitive strain injuries (RSI) through their stationary design, which minimizes arm and wrist movements required to reposition a traditional mouse. This setup lowers the overall workload on the upper extremities, decreasing the risk of musculoskeletal disorders associated with prolonged computer use. A systematic review of controlled trials on alternative mouse designs, including trackballs, found moderate evidence supporting their use to reduce discomfort and promote neutral postures, with some studies reporting up to a 37% decrease in musculoskeletal symptoms when combined with ergonomic training.^[66] A randomized controlled trial involving computer operators demonstrated that trackball use significantly reduced left upper extremity pain (p = 0.04) and incident musculoskeletal disorders (hazard ratio = 0.19, 95% CI 0.04–0.90), highlighting its potential to alleviate RSI symptoms despite users being predominantly right-handed.^[67] The thumb or finger-operated mechanism of trackballs enables a more natural hand position, improving posture by allowing the arm to remain relaxed and close to the body without excessive reaching or pronation. This is particularly beneficial for individuals with conditions like carpal tunnel syndrome, as it helps maintain a neutral wrist alignment and reduces pressure on the median nerve. Occupational Safety and Health Administration (OSHA) guidelines endorse trackballs for prolonged computer tasks, noting that devices with adjustable sensitivity and at least 100 degrees of exposed ball surface minimize fatigue, excessive force, and awkward postures to prevent upper body strain.^[68] Trackballs enhance accessibility for users with motor impairments, featuring ambidextrous configurations that support left-handed operation and customizable elements like larger balls for those with arthritis, facilitating easier manipulation without straining weakened grips. These designs integrate well with assistive technologies, promoting independence for individuals with limited dexterity. A 2015 Kensington survey of trackball users reported that improved ergonomics and comfort were primary reasons for switching from traditional mice, with many noting reduced pain after adoption.^[56]^[69]

Limitations and Considerations

While trackballs offer ergonomic advantages in reducing arm movement, they impose greater demands on the hand and fingers, leading to increased muscular strain in these areas compared to traditional mice. Studies have shown that trackball use results in higher electromyographic (EMG) activity in extensor muscles such as the extensor digitorum communis (EDC, 13.38% maximum voluntary contraction [MVC]) and extensor carpi ulnaris (ECU), as well as flexor pollicis longus (FPL), relative to slanted ergonomic mice (EDC: 11.02% MVC). This elevated activity in smaller muscle groups and tendons can contribute to localized fatigue and a higher risk of musculoskeletal disorders in the hand and wrist over prolonged use. Additionally, trackball operation often requires more wrist extension, which exacerbates strain in the forearm and can lead to discomfort, particularly for users with pre-existing conditions.^[70]^[71]^[72] Performance limitations are another key consideration, as trackballs generally exhibit slower cursor control and reduced precision for fine-motor tasks compared to optical mice. Research indicates that trackball users experience approximately 500 ms longer response times in pointing tasks, with lower subjective ratings for speed (2.5/10 vs. 6.4/10 for alternative devices) and accuracy (4.2/10 vs. 6.3/10). These drawbacks stem from the indirect control mechanism, where finger rolling replaces whole-hand movement, potentially hindering adaptation for precision-oriented activities like graphic design or gaming. A randomized controlled trial among computer operators found that while trackballs reduced left upper extremity pain and disorders (hazard ratio [HR] = 0.19, 95% CI 0.04–0.90), they provided no significant benefits for the right side and caused discomfort in some participants, highlighting variability in user response.^[71]^[67] User adaptation and maintenance further influence trackball suitability, particularly for accessibility. Users transitioning from traditional mice may experience an initial adaptation period of a few days to a week.^[73] Not all individuals benefit equally; those with motor impairments in the fingers may find the rolling action exacerbating, while right-handed users often see asymmetric effects. Mechanically, trackballs require regular cleaning of the ball and sensors to prevent skipping or erratic movement, as dust accumulation impairs functionality—a consideration in dusty or high-use environments. Overall, trackballs should be selected based on individual needs, combined with ergonomic training to mitigate these limitations.^[67]

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Jul 29, 2016 · Like many of the world's great inventions, the trackball as a concept was invented by a British engineer, Ralph Benjamin. Kept as a military ...
[54]
Mouse Or Trackball In The Studio - Production Expert
Aug 30, 2024 · I also like that when navigating multiple displays, you can give the ball a good spin and quickly jump across long distances with ease. When ...
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Kensington Survey Reveals Why Users Switch from a Traditional ...
Nov 11, 2015 · The survey revealed that users switch from a traditional mouse to a trackball for computing primarily because trackballs deliver greater speed ...<|control11|><|separator|>
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[PDF] Human Factors Evaluation of Pointing Devices Used by Air Traffic ...
Results: We found that participants preferred the mouse and current trackball over all other devices and were as successful controlling traffic (e.g., no losses ...Missing: rooms | Show results with:rooms
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Air Traffic Control - KEP
Cursor Controls have a broad range of trackballs, touchpads and hybrid devices designed for use in ATC applications with a number of innovative patented ...Missing: rooms | Show results with:rooms
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BlackBerry's input innovation: a retrospective - MobileSyrup
Sep 24, 2014 · The smaller, sleeker Pearl, was also also the first BlackBerry to replace the iconic trackwheel with a trackball to save on device thickness.
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From Brick To Bold: The Evolution Of The BlackBerry - CRN
Sep 4, 2008 · The Pearl also introduced BlackBerry's navigation trackball, which eased vertical and lateral scrolling, with dedicated "menu" and "escape" ...
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Trackball for LOGIQ Book Series 2326353, Ultrasound
Free deliveryThe Trackballs are used in ultrasound devices for cursor control. It is used during the ultrasound scanning, to scroll through and find the area of interest. It ...
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Industrial Trackball Modules | OEM Integration Components - Seatronx
Precision industrial trackball modules for OEM device integration. Customizable components designed for embedded systems & equipment manufacturing ...
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ADB Accessibility Focus Change - android - Stack Overflow
Mar 24, 2021 · I would like to know how to make the ADB adjust the accessibility focus while Talkback is on. I have tried: adb shell input trackball roll 0 1Missing: virtual | Show results with:virtual
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Review: Input Device Alternatives for Infantry Soldiers - ResearchGate
Feb 22, 2016 · soldiers could control the cursor while holding and aiming a rifle. l) Compatibility with clothing: The trackball finger ring can be worn over ...
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Top 5 smartphone features that are trending down or no longer exist
Aug 13, 2017 · The trackball eventually went away in favor of trackpads due to it's lower rate of of failure, and we saw many HTCmade Android phones carry this ...
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Benefits of alternative computer mouse designs: A systematic review ...
Some current evidence supports the use of alternative mouse designs to reduce discomfort, promote posture amongst computer users, especially if accompanied ...
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A randomised controlled trial evaluating the effects of two ... - NIH
The trackball significantly reduced pain and incident musculoskeletal disorders in only the left upper extremity. This finding is unexpected because 98% of the ...
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eTools : Computer Workstations - Workstation Components - Pointer/Mouse | Occupational Safety and Health Administration
### OSHA Recommendations for Trackballs in Computer Workstations
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7 great ergonomic computer mice for carpal tunnel and arthritis
Jun 24, 2024 · While the trackball feature and natural hand positioning make the Welspo Trackball Mouse ideal for users with wrist pain, there are a number of ...
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[PDF] Evaluating Muscle Activity During Work With Trackball, Trackpad ...
Jun 1, 2019 · Electromyography (EMG) is a common method for investigating the relationship between an optimal mouse design and the risk of musculoskeletal.
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### Summary of Limitations and Disadvantages of Trackballs as Input Devices
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### Summary of Trackball Limitations, Disadvantages, Maintenance Considerations, or Ergonomic Issues
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Is the Trackball a Better Input Device for the Older Computer User?
Aug 7, 2025 · This study examined the effects of aging on performance and preferences for two computer pointing devices (e.g. mouse and trackball).