A Study of Trends on Human-Machine Interface Design in Modern Vehicles

This study aims to analyze the development trends of intelligent device interface improvements, specifically the car dashboards, by applying liquid crystal display technology. The methodology used in this study is mainly a comparison and analysis of the improvements that have been made. The objects in the study were several old version dashboards display instruments that were compared against the improved version of the LCDs. This paper analyses the requirements of car operators, with various proficiency for drivers’ information, in enhancing the modern car dashboards displays. Besides, this study further delves into ways through which instrument interface intelligently can be improved to adapt effectively to all kinds of drivers. This study also touches on an analytical view of information targeting drivers. This is a scientific technique to determine the extent of information needed from drivers in different circumstances by having precise or averaged information about the drivers; it is easier to integrate this information into the human interface that helps in these modern car operations. The results of the study show that the current LCD Dashboards are valuable, accurate, precise user friendly, and improved with integrated ICTpieces of equipment. This makes them much better than the older traditional systems of the car dashboards.


Introduction
e methodology used in this study is mainly a comparison and analysis of the improvements that have been made, to analyze the development trends of intelligent device interface improvements, speci cally the car dashboards, by applying liquid crystal display technology. is study shows that current LCD dashboards have been improved by integrating ICT equipment, which makes them much better than the old traditional car dashboard systems. e study reveals the evolution and improvement of modern vehicle dashboard display systems. e old dashboard display version mainly consisted of mechanics and several movable parts. is made it di cult for the drivers to handle the cars at times. e rate at which the drivers were to multitask to gain full control of these machines was a daunting task. e rates of tra c jams, low speed, and road crashes were signi cantly high. Besides, it took a long time for one to learn how to manipulate all the instruments on the car's dashboard fully. With a relatively high number of instruments to read, the information provided by these instruments sometimes failed to re ect the real conditions of the car. ere are signi cant steps that have been taken to improve the ancient dashboards. Nonetheless, for high e ciency to be achieved in this human-machine interface, signi cant developments were also incorporated, both in design and also e ciency. A milestone change from mechanical to digital intelligence dashboard whose contents keep changing was achieved. As demonstrated by the incorporation of the new displays of LCDs and the future transparent dashboards, this Human Machine Interface has more advantages than disadvantages to automobile Human-computer Interaction and Automobile Human-machine Interface [1]. e exibility of applying the full liquid crystal technology in the dashboard interface in an automobile is a modern method that is software-dependent [2] with more knowledge of science and technology across the globe. Tremendous improvements have been suggested, and some implemented on ancient automobile products in the right direction in the intelligentization of humancomputer interaction. e principle of this change depends on the rapid development and application of corresponding technological advancement, especially in automobile electronics, automobile human-computer interaction, automobile, and human-machine interface. It is projected that several vehicles will fully adopt the liquid crystal display dashboard in the future [3]. is will be integrated by the emergence of varying new dashboard interfaces in the automobile Human-computer Interaction and Automobile Human-machine Interface.
Externally, the design of these brand-new interfaces has a lot of modern development compared to traditional dashboards, suggesting a new requirement for design content and techniques. Besides, there are dynamics in the contents displayed by the new automobile dashboard interface. e displays are variable and diversified-unlike in the traditional mechanical dashboard in which pointers and scale were applied as the generation of hardware. e colors and style of operation are permanent. Furthermore, the liquid crystal display dashboard is a combination of a whole screen [3].
is implies that the kind of pointers, scales, numerals, and texts are simple images displayed and colors whose styles can be changed at will. is helps to meet the demand of different users in different scenarios [2]. It is both entertaining and interactive. Because of the different functions in the display, the dashboard can achieve various functions. For instance, it can display targeted prompts according to various driving procedures and environmental conditions that alert the drivers of the required information. is helps the drivers in quick decision-making.
e alert system onboard has been instrumental in helping drivers with poor vision and hearing problems. ese warning devices are pivotal in avoiding accidents [4]. e dashboard systems are intergraded with images and audio systems that can be read and heard. is interactive design provides advanced options lacking in old vehicle models. e other important tool in this category is the information demand level interface display. It enables the driver to be flexible, Drivers can make choices promptly, and it also allows for various styles and content according to their taste, driving norms, and varied information required [5]. Sometimes challenges are met in due course of implementing this technology. at is instrument interface cannot fully work out for all drivers.
For most developers to salvage this situation, analytic hierarchy processes have been proposed. Besides simple, effective index weight analysis technique that dwells much on the new liquid crystal display technology in the intelligent development procedure of automobiles, this could help satisfy the drivers' demand that depends on foregoing technology [5]. Furthermore, there is a method that helps in evaluating the demand level of different drivers for varied types of information during driving. From these reviews, it is evident that several changes have been in place to improve the old dashboards to a much better dashboard that is based on the liquid crystal display.
ere is a possibility of eradication of the traditional dashboard soon if the LCDs are made cheap for all vehicle manufacturers.

Related Improvements in Human-Machine Interface Design in Modern Vehicles
Several factors like market demands show advantages of the improved LCD car dashboards. e number of cars sold due to the enhanced dashboards on LCD versions has improved greatly, as shown in Figure 1, along with the market demand for LCDs in different parts of the world for different models. e stiff competition in the market must, therefore, be handled technologically.
is is achievable by the introduction of Human Interface Machines, which will be ideal and unique to attract more customers. Besides, Asian countries have the best-growing economy among their rivals worldwide.
e growth in the Asian country's economy provides the best business arena and research platform for improved modern vehicles.
rough market analysis, the taste for automatic vehicles has taken the day [3], substituting the old manual fashioned vehicles with improved dashboards such as automobile human-computer interaction and automobile human-machine interface. e need to improve their dashboards and other software-related interfaces in the current automated vehicles is greatly a good idea whose time has come [7]. Automated vehicles require a well-integrated human interface that will reduce risks such as accidents through a quick grasp of the information played by the LCD dashboards [8,9].
rough the improvements of the displays, errors have been greatly reduced since most of the information on the performance of the vehicle is read by machines through a computerized interface system [10]. For this reason, Asian countries like China, Japan, and India have greatly contributed to the improvement that is deemed necessary for the best quality of automobiles they launched in the market. e USA and European car manufacturers have not been underscored in this analysis. e duos have also tried to pump financial and human capital to facelift their modern car production to unmatched standards [5]. I must relate that Russia, Europe, and America produce some of the most sophisticated motor vehicles in the modern world. ey boast of their skilled manpower, availability of research funds, and also the staunched willingness to stay aloft among their competitors. ese multifaceted nations have enjoyed producing and selling cars in almost every niche of automobile transport. eir car production cuts across sports, heavy-duty, general transport, military, media, health education, and research. By being capable of extensively researching the current needs, China, America, Russia, Europe, and other stakeholders have played a pivotal role in modernizing their cars [11]. eir industries began by building manual vehicles with too many mechanical systems of display like the pointer speedometer and the oil gauge. ese mechanical parts dashboards, with instruments having movable parts, were prone to mechanical breakdown [3]. ey also had a short life with low work efficiency. e modern (improved car 2 Scientific Programming dashboards) depend on minimal movable parts. Most of the display mechanisms are electronic-based, and their efficiency is highly improved. Quick readings can be taken at a glance. is reduces the energy spent by the drivers to obtain vital information like engine speed on their car dashboards. Asian countries have contributed to the development and production of motor cars since the early 1980s. Countries such as Japan, India, China, and Russia are wellknown champions of the automobile industry. Due to the growing automobile market, Asian countries have continued to remain relevant in the market to level their production against the USA (Ford), European (British Motor Works) countries, and other parts of the world. e backbone of the economy of these Asian countries is greatly dependent on motor vehicle assembly. Nonetheless, other Asian countries like India and China also offer favorable competition in the manufacture of vehicles in their regions. India produces a good number of its TATA brand vehicles in various models [12]. e market for cars and other heavy-duty automobiles has speedily increased. is is because cars are considered lucrative goods worldwide [3]. With the adoption of this new LCD technology, the dashboard interface design has a lot of importance, aimed to improve, convince, create comfortability, and even lessen driving rules [2]. By doing this, the safety of the drivers and general users is tremendously improved before creating any Human Machine Interface.
Since the advent of the first modern (i.e., digital) automotive display, designers and manufacturers have made significant progress in improving image quality and enhancing device durability [13], facilitating the development of modern automotive HMI designs. Takatoh et al. proposed a new type of optical device with variable transmittance based on the incident angle direction. ese devices consist of two liquid crystal devices (LCDs) with a half-wave plate between them, a wide range of transmittances was obtained because no polarizer was used [14]. Yoon et al. [15] proposed a homogeneously aligned liquid crystal device in which the liquid crystal director does tilt as well as twist deformation in a confined area by both vertical-and fringe-electric fields, exhibiting about two times faster decay response time than that of conventional FFS mode with suppressed luminance in the upward direction. In the vehicle display field, the brightness of the backlight is almost more than 10000 cd/m 2 , which may enlarge small defects in the display screen to impact display quality. As black uniformity is a crucial characteristic of image quality, Hua et al. [16] reduced the interference stress by controlling the flatness of the backlight and the metal frame, optimizing the design of the buffer strip, and reducing the bending stress by optimizing the structure and shape. e black uniformity of the module was improved by more than 80%. Wang et al. [17] designed a programmable digital power supply TFT liquid crystal display (LCD) screen touch display system based on STM32F7, the system has a clear display effect and fast control response.

Comparison and Analysis of the Improvements.
e research methods were mainly a comparison between old traditional dashboards and modern LCD-based ones. e comparison offered a reflection of the tremendous work done to achieve the current dashboard displays. e popularity of LCDs is due to the high-tech Displays, Customized information, and the true reflection of Information Technology in the application of these great Human Machine interface tools. Up to now, it is premature to conclude that the development is fully done. Nonetheless, the LCD dashboards have a shred of clear evidence to capture the attention of all automobile manufacturers. is technology has proven important due to its unlimited advantages. Factors such as the orientation of the car and the global Scientific Programming positioning of the vehicles can easily be obtained on an LCD dashboard [18]. e major types of designs available in the market include mechanical meters with LCD Displays, pure mechanical meters, and all LCD.
Furthermore, e LCDs are available in different sizes and measurements, ranging from 4.3 inches to 12.3 inches, depending on their purpose. Wide choices and preferences are well taken care of. e improved versions of car dashboards are integrated with LCDs. e drivers can read the engine temperature, fuel gauge, and speedometer quite easily [19]. e application of computers to program the LCDs is also catered to in the new design. is has also enabled the connection of the current dashboards with wireless devices and even the Internet. e introduction of the touch smart LCDs is also an integral improvement on the car dashboards. e touch screens are easily operated since they don't require many complex mechanical systems. e comparison between the traditional and current LCD-based dashboards is demonstrated in Table 1.
e improved versions of car dashboards are integrated with LCDs. e application of computers to program the LCDs is also catered to in the new design. is has also enabled the connection of the current dashboards with wireless devices and even the Internet.
Among the cars that have adopted the incorporation of the LCDs fully on their dashboard is the EcoJet car. is car runs on a 650-horsepower run by biodiesel fuel. e display is a two-screen mounted on the front part (dashboard). is car entirely depends on the improved dashboard display, which provides basic information about the general state of the vehicle. Microsoft Windows Vista runs the LCDs for the multimedia and navigation control systems. is gives the car an enhanced ability of word processors and the web on the same dashboard. e rare views are also taken care of. e screen can successfully display the rear part of the car, and this display is connected to the camera. e dashboard is quite fascinating and entertaining. e LCDs are fully touch mart enabled. e audio system of this car is embedded with high graphics that can also recognize speech through a series of microphones onboard. is car is a postulation of future vehicles that will fully rely on the improved LCDs. e car borrows a lot of design from the jet airplane. e use of LCDs is not only limited to car displays but general automotive-like high-speed railways [20].

Evaluation of the Requirements of Car Operators.
e operators require displays that can multitask, as shown in Figure 2. e need to display numerous information at once is among the choices and preferences of the current drivers. User-friendliness, entertainment, and beauty are the evaluated factors that the driver requires in their modern LCD dashboards.

Evaluation of Dashboard Interface in Automobiles.
In the early ages (from 1940s to 1960s) of car manufacturing by American companies, the dashboard was less readable. e instruments were chrome-laden and with transparent plastic covers, which at that time were seen as the best methods and styles. e reflection on the chrome surfaces, especially from the sunlight, could even make it difficult for the drivers to take correct readings. is trend continued until the 1980s when wood and chrome were still ramp-ant on building the dashboard displays. Most of the improvements were made in Europe and the Asian-based car manufacturing companies. e dashboards started looking attractive with increased research to make them look much better by these companies. In the wake of the inception of LEDs, LCDs integration in the electronic arena and the possible displays were then made. e current automakers have gone far beyond this age within 20 years. e LEDs and, ultimately, the LCDs have taken the subject of discussion in-car dashboard displays. With the ability to convert the mechanical motion into electrical signals and then into the screens through computer programming, the car displays are much better. e car dashboard displays as major Human Machine Interface increases by adding stylish modern technology in the displays of these machines, as shown in Figure 2 Full interchangeable LCD Dashboard touch smart enabled. e other models of car that included the LCDs on their dashboards were the Audi Quattro. is was a sports car in the early 1990s. e LDC displays in these cars were simpler than the current full liquid crystal displays. e analog systems were reduced in this model in 1991.
Several companies have even gone a notch higher to incorporate the fuel economy gauges in a cluster of some vehicles, e.g., Honda, Mercedes, and British Motor work for companies. is fuel gauge helps in real-time monitoring of these vehicles' fuel consumption, as shown in Figure 3.  Along with influencing factors like the competition for the market, this study also offers a succinct and comprehensive knowledge of the facets like the future of these current developments in the automobile industry [11]. Capturing areas like the market growth for the improved human-machine interface profoundly delves into the crystal liquid display dashboards. Full liquid crystal technology in the dashboard interface in an automobile has a benefit for both the car developers and the car users [5]. e developers are earning cash from their skills and ideas by developing better equipment like the liquid crystal technology in the automobile dashboard interface. Furthermore, car drivers get quality services offered by the designed interfaces while driving, as demonstrated in Figure 3.
is is a win-win situation for both the equipment vendors and consumers. e LCDs in the car display come with various values and functions. Some of the improved display systems help tell the distance between the driver's car and the next car in front. e distances to be estimated by the driver's car can also be adjusted to varied abilities, which helps drivers with high-speed cars to keep safe distances from cars [23]. It avoids accidents since the car drivers can slow down at convenient distances and times, even at sharp bends. Drivers with poor vision have also benefitted from this improved dashboard display [11]. To safely drive, the drivers get the exact distance between the two cars even under poor visibility brought about by the weather. Some of the improved version of these displays is shown below in Figure 5.
LCDs are designed such that their function shifts, the improvement here is that the screen can display some information discretely or as set by the driver, and some situations prompt reverse driving. e strain to turn while the drivers sit to view the back of the car during reverse has also been catered for [24]. e above model LCD is designed in such a manner that during reverse, the display picks the back view movement of the vehicle through some camera at the back.
is aids the drivers in making smooth turns by avoiding hitting objects. In modern urban areas, parking a car in front of schools, offices, Walmarts, and even supermarkets has faced a high number of cars with little or no space for parking. It becomes difficult for the lucky ones who get parking spaces again to unpark the car and get to the road [25]. e emergence of this improved version of the Human Machine Interface provided back the vision of the car during  reverse. e drivers find it easier to get the car safely in reverse mode. e improved display is shown below in Figure 6 and Figure 7 during usage. e application of the above LCDs has dramatically improved the efficiency of the current drivers. e need to be increasingly dependable. e interfaces act as an aid to humans both for safety and accuracy. It is not a matter of production, but the main issue is producing quality at speed. It is equally imperative to highlight the improvements in the design of the LCDs. rough active projects, there are several designs of programmable LCDs [27]. rough these designs, they significantly employ the instrument cluster as an important element of the safety automobiles' passive safety channel and systems [28]. is state of art invention shows the driver the situation of the car through some signals.
e energy distribution in the car LCDs is also shown below in Figure 8. e warnings are informed of collision warnings, terrain warnings and portholes, vision and audio support, parking aids, and even adoptive speed controls. ere are several eventualities that prompt signal warnings on the dashboard of a car [29]. Moreover, the car dashboard display systems are smaller to cater to all warnings. erefore, multitasking designs are integrated into the crystal display system that allows the car to send more than one warning per instrument [30]. is design chiefly helps to create more useful gadgets for a small area in the car dashboard. Another important improvement is the incorporation of an integrated instruments cluster, which has more areas to exploit in terms of visual space [31]. e runtime configurations and flexibility are the key priorities that make these designs important too. is ensures that the driver can make changes due to the prevailing conditions of the road (Bellotti et al.). It is quite clear that the designs play a key role in the adoption of this Human Machine Interface in the motor car industry. ese adorable communications tools have made driving more desirable and enjoyable, as they limit the energy and tasks of the driver. ese communication tools are equally imperative in line with safety and containment. e best part is the existence of research to improve the improved designs through lab road tests [32].      Scientific Programming e car developers may choose a number of these OS, depending on the requirements of the display systems. Besides, these operating systems also make it possible to bring plug-and-play and wireless devices into the car. Bluetooth, Wi-Fi, and Ethernet can be connected with the LCDs courtesy of the computer science contributions [33]. e computerized display system also helps link the car to the outside world through the Internet. Connecting the dashboards to the 3G and 4G is possible if the dashboard is compliant [34].
is means that the integration of the Operating System dependent LCDs is not only for the beautiful graphical but also a research and interlinking tool altogether. Every opportunity has got a challenge. Despite the praises hipped on the Human Machine Interface, several challenges such as space and overheating in the dashboards due to the circuit boards of these LCDs are the challenges that continue to face their use [29]. e cars and the software developers have endeavored to develop and harmonize both software and hardware that are complacent, small size, and efficient car dashboard LCDs. is technical problem has derailed the full adoption of all LCDs in the current vehicles.

Discussion
All this improvement can be achieved through the following techniques: first and foremost, for this behavioral dashboard interface intelligent to be implemented in automobiles, checking the driving conditions is Key [5]. is can be done by analyzing the driver's behavior, and installing all kinds of sensors should be fully implemented; secondly, choosing and deciding which information should be fed onboard computers based on a designer framework adhering to rules and standards. And finally, the information displayed on the dashboard interface should be a man based on the decisionmaking results.
From the above analysis, the improved car displays by application of the LCDs have indeed brought a turnaround in the automobile industry.
ese improvements aim to make the use of modern cars as easy as possible. Besides, the development in information technology has equally boosted the Human-machine Interface Systems like an entire LCD car dashboard [12]. In as much as the technology may face challenges in the application. ere are many advantages attached to it in the end. is ranges from accuracy to the safety of the road users and the drivers [11]. e fully LCD dashboard was only typical in the luxurious cars that dominated the global market. It is good news to realize that through research, cheap cars are also embarking on adopting all LCD dashboard systems, which shows a milestone improvement that has taken place since the inception of the LCDs [6]. Some challenges come with every bit of technology. For instance, cars that are computer-dependent are also liable for hacking. Cyber-attacks are currently a menace in every sector like health, finance, transport, and communication. With the advent of this crime, it is pretty challenging to develop dashboards that are computer dependable but free from cyber-attack risks. Taxi companies like UBER face technical and crime problems. Another upcoming challenge that drags behind the implementation of the LCD Car dashboards is the maintenance cost that they come. For a long time in history, the development of LCDs has depended on a better research foundation, which calls for funds for starting and maintaining the automakers that integrate the computer and LCD display in their automobiles.
is Human Machine Interface has also improved and speeded up future designs of the expected cars that will be electric and solar energy-dependent. It is also pivotal to acknowledge the roles played by the computer technicians in integrating all LCDs in the car display system through their scientific knowledge and unwavering spirit of the invention. ey have made it possible to coalesce computer science and mechanical science to come up with a human-machine interface [29]. Besides, it is pivotal to note that the core of the LCD dashboard displays has been immensely improved through software development in computer science. e backbone of clear communication between LCDs, the car, and humans lie in the operating system, which is computer software. QNX, WinCE, Android, Linux, and Windows operating systems have made it possible to develop the LCD car dashboards display [34]. ese operating systems greatly assist in programmable LCDs.
As the terminal information gate of the IoT era, the LCD devices will also extend to the smart area, which is the intelligent display. On the one hand, the display effect will reach the real world and achieve "zero error output." On the other hand, the display equipment can detective the emotional state of human beings and automatically switch the Scientific Programming information they present in real-time according to their wishes, and then realize "human-machine interaction" [35].
LCD has many advantages and is the main development direction. However, physical interaction is considered the most reliable and efficient [36,37]. LCD is susceptible to environmental factors, resulting in unstable performance [37]. With the improvement of technology, these problems will eventually be overcome, and the LCD industry will further develop and play an essential role in human-computer interaction.

Conclusion
is study shows that the current LCD dashboards are valuable, accurate, precise user friendly, and improved with integrated ICT equipment. is makes them much better than the older traditional systems of the car dashboards. e result indicates the availability of several improved versions of the car dashboards integrated with LCDs. e application of computers to program the LCDs is also catered to in the new design.
is has also enabled the connection of the current dashboards with wireless devices and even the Internet. erefore, the study reveals the evolution and improvements in the modern car dashboard display systems.
is work focuses on the published liquid crystal display technology, studies the development trend of smart device interface improvement, how to apply the still researched and unpublished liquid crystal display technology into smart devices, achieving high human-computer interaction efficiency and accuracy requires other researchers to investigate further. In recent years, the popularity of keywords such as human-vehicle interaction and autonomous driving has continued to increase, and liquid crystal technology, humancomputer interaction technology, sensors, and information technology have continued to develop. ese all provide research opportunities for researchers. is work is expected to offer broad prospects for future research and help researchers discover potential opportunities for human-vehicle interactions.

Data Availability
e data used to support the findings of this study are available from the corresponding author upon request.

Conflicts of Interest
e authors declare that there are no conflicts of interest.