Technology‐driven 5G enabled e‐healthcare system during COVID‐19 pandemic

Abstract Technology‐driven control measures could be an important tool to control the COVID‐19 pandemic crisis. This study evaluates the potentiality of emerging technologies such as 5G and 6G communication, Deep Learning (DL), big data, Internet of Things (IoT) etc. for controlling the COVID‐19 transmission and ensuring health safety. The healthcare sector is able to provide a unified, rapid, and incessant service to people by applying modern wireless connectivity tools like 5G or 6G during the COVID‐19 pandemic. This study has identified eight key areas of applications for the COVID‐19 management like infection detection; travel history analysis; identification of infection symptoms; early detection; transmission identification; access to information in lockdown; movement of people; and development of medical treatments and vaccines. Data have been collected from the respondents living in Sakaka city, KSA during pandemic. This study reveals that most people receive information from social networking sites, health professionals, and television without facing any challenges. The analysis shows that, during the COVID‐19 pandemic, about 42% of respondents felt tense always or most of the time in a day. Only 28.6% of respondents felt tense sometimes, whereas the remainder (about 30%) did not feel tense in relation to the COVID‐19 crisis. Satisfaction with COVID‐19‐related information is also positively correlated with COVID‐19‐related information literacy (r = 0.53, p < 0.01) that is also positively correlated with depression or emotion, anxiety, and stress (r = ‐0.15, p < 0.05). The long‐term pandemic is creating several psychological symptoms including anxiety, stress, and depression, irrespective of age.


INTRODUCTION
available advanced technologies can ensure people's access to COVID-19-related information. According to many scholars [2][3][4][5][6][7][8], COVID-19-related information should be made available to people through the use of advanced digital technologies, comprising big data, artificial intelligence (AI), Deep Learning (DL), Internet of Things (IoT), 5G and 6G. These technologies are necessary to solve the main clinical problems as well as removing barriers to people's access to information.
With the COVID-19 pandemic given the utmost priority, scholars and practitioners are working hard in their attempts to develop effective measures and strategies to address the lifethreatening coronavirus worldwide. Advanced digital technology could help to develop modern diagnostic appliances and treatments. The effective use of advanced digital technology could also have a rapid effect on the control of this global pandemic. The process of developing context-specific technology should be continued to improve outcomes. Digital technology not only helps to address the COVID-19 pandemic but is also important for the social and economic dimensions of people's lives during the pandemic [9,10]. This pandemic is showing the weaknesses of health sectors, irrespective of whether these sectors are in developed or developing countries. Governments of many countries have given top priority to the development of advanced technology to cope with this crisis. Only a few have achieved a small amount of success, with most having failed to control the coronavirus's rapid transmission, despite applying social distancing, screening, mass testing, contact tracing, and lockdowns. In one example, South Korea used digital technologies to address the COVID-19 pandemic particularly for surveillance, testing, screening, and quarantine, and achieved a fruitful outcome.
Digital technology (DT) is a crucial part of daily life. Rapid DT developments have created demand for every sector. Deep Learning is a part of Artificial Intelligence (AI) in broader aspect [11,12]. Symbolic Structures are included in the scope of AI along with DP. Symbolic Systems use symbol manipulation and logic to create intelligent actions. Expert Structures and Information Graphs are examples. Expert Systems make decisions based on if-else rules. In graph data structures, Information Graphs store relationships between objects. The use of Knowledge Graphs of Benevolent AI is tremendously beneficial for combating COVID-19. Health information technology (HIT) covers a number of related fields like information, health and emerging technologies, all of which are experiencing technological transformation [2]. In reality, this transition is a move away from conventional medical practices and toward the use of new technology to improve growth at all stages of the healthcare process. HIT encompasses a variety of cutting-edge technology, including e-health, m-health, telemedicine, social networking sessions, email, and texting. These innovations offer people seeking medication and health care a huge advantage [13].
Information systems (ISs) are playing a vital role in the COVID-19 pandemic, more so than any other system in the healthcare industry. These systems help to manage data to convey messages as rapidly as required. They also ensure that evidence is available for making decisions, formulating policy and strategy, implementing action, and coordinating other elements to strengthen healthcare through intelligence [14]. In order to enable smart healthcare applications, the existing healthcare system depends largely on 5G (fifth-generation) networks; though it cannot backup the fast development of the related applications for long time due to limited bandwidth resources. In relations to bandwidth, efficiency, expectancy, and rate of data, sixth generation (6G) networks deliver improved services compared to 5G [15]. 5G facilities are generally classified into the eMBB (enhanced mobile broadband), the URLLC (ultra-reliable low latency) and the massive communications of the machine type (mMTC) [16]. It can provide an internet connectivity for medical devices, video calling for ensuring telemedicine through mMTC. It also supports to surveillance for infectious diseases like COVID-19 through various autonomous and drone vehicles. Nonetheless, the services provided by 5G are inadequate to meet both the development of healthcare skills and disaster circumstances. In particular, remote healthcare privacy and security, ubiquitous telemedicine communication in areas with inadequate infrastructure, Internet of Medical Things (IoMT) device connectivity, and very reliable and little expectancy communication for remote surgical treatment with mixed reality [17,18].
Digital technology and automation can provide better health facilities particularly in this pandemic [19]. People can only receive better services if the authorities can establish advanced information systems (ISs). When caring for vulnerable people, an information system (IS) can ensure access for these people, as well as responsiveness and health-related suggestions through providing accurate, rapid, fruitful, coordinated, and real-time data. Health inequality in a community or a state can be removed only by ensuring that people have easy access to an information system (IS). Information technology (IT) is based on data, so the governance of IT requires regular data production, collection, management, and analysis. Simultaneously, infrastructure should be established through the adoption of advanced technology, computer applications, and a real-time database. This process requires the integration and adjustment of modern technologies, such as big data, AI, deep learning, IoT, and machine learning. The current study considers all the available technologies that are embedded within an information system (IS). People, society, and the state are dependent on the entire IS for gaining easy access to information related to COVID-19 and emergency treatment.
Many published documents have already been focused on the epidemiology of coronavirus infection for networking demand [20], an expert's opinion on coronavirus [21], information about infectious diseases [22], and online information seeking [22,23], patient monitoring, but the focus on healthcare communication technology and information access are still lacking worldwide. As almost all cities in KSA have already faced coronavirus infection, it is high time for the availability and reliability of information, and people's satisfaction with that information to be assessed to help them obtain beneficial information for their protection from COVID-19 infection. This study contributes to the policy level by providing context specific recommendations of information access with empirical evidence from those at the centre of technological development. Therefore, as previously stated, this study intends to evaluate the potentiality of emerging digital technologies for controlling COVID-19 transmission and ensuring health safety.

5G communication system for controlling COVID-19
5G (Fifth-generation) wireless communication facilities and the related application situations are currently under debate [17]. One of the key motivations is to advance 5G communication and IoT from a social and humanitarian point of view, that is, to grow communication system to develop the life quality of people. It can help to improve the smart healthcare system's strong communication infrastructure in relations of better reliability, stability of connections, ultra-massive accessibility, scalability of the network and rapid response flexibility, enabling monitoring and preventive action to be taken in pandemic situations [18].
According to Wijesooriya et al. [24], telehealth can be an effective approach to ensure better health care and train the medical professionals at the time of pandemic. Rahman et al. [25] also recommend to use deep learning approach for ensuring better health services though the latest technology under 5G. The wireless communication technologies can help to monitor the spread of viruses, to improve the health, treatment process and socio-economic sectors. In disaster scenarios, the huge number of treatment seeker visited to the hospital quickly overwhelms hospitals. It is difficult to control the situation because of the scarcity of medical personnel and equipment along with a minimum patient capacity [17]. In pandemic cases, in fact, things get inferior because of the rapid transmitted capacity of virus. Minimizing the physical contact between treatment seeker and physicians is an effective way to avoid this problem. It can be achieved by using IoMT and robots in the hospital and diagnostic centres. These devices can also help to monitor and transfer health records of patients over the internet to physicians, and ensuing to less interactions. Cloud infrastructure can be utilized to many cases, like providing equipment, health checkups and sanitizing the region of the patient for possible monitoring [26].

Deep learning for COVID-19 pandemic control
The healthcare sector is rising rapidly with the help of wireless and deep learning (DL) technology [27]. It's now a multibilliondollar company. Particularly in developing countries, where the low-income people are growing, the industry is flourishing. The demand of treatment seekers is versatile and they always want to get easily accessible health care with a friendly environment. Due to modern life, people have very less time for routine checkups to consult a specialist healthcare professional. Massive traffic jams and a shortage of qualified doctors are major factors that discourage people from visiting hospitals. Sometimes treatment seekers need to visit an expert physician in another country that can easily manage by video chatting with the physician using smart technology. But some infectious diseases need to be handled with teamwork. For example, COVID-19 must be handled by case-wise. Treatment seekers, physicians, and stakeholders can be smartly linked for organized management. The healthcare sector is able to provide a unified, rapid, and incessant service to people by applying modern wireless connectivity tools like 4G or 5G. By offering various significant data about the treatment seekers and the community, the IoTs introduced a new way to the operation. There is now less storage capacity headache; however, one crucial problem exists, like, the bandwidth requires by the immense volume of treatment seeker's data.

Digital technology driven COVID-19 pandemic control
The coronavirus (COVID-19) is now a global pandemic owing to the nature of its transmission, and its infection and mortality rates. This pandemic has become the most serious health hazard for human beings since last century. Modern healthcare is based on information. Not only is information applicable for practitioners and scholars but also for members of the general public seeking healthcare. The healthcare industry depends mainly on information for the treatment process, diagnosis, disease prevention, and protection from disease, as well as being actively involved in and reliant on the acquisition, storage, analysis and interpretation of information. Jacobs et al. [28] conducted a study on healthcare-seeking behaviour and concluded that people tend to collect information from the internet and traditional media. However, they found that the internet should not be used when seeking healthcare information owing to its poor level of authenticity and creation of inequality. Conversely, due to long-term lockdowns and communication barriers, people would like to readily access information to fight against COVID-19. At times, the adoption by people of non-scientific information from the internet or social media has created major problems. A health information system (IS) allows a practitioner to use and share electronic information about a patient with various information systems (ISs) [29,30]. This brings several benefits, such as ease in keeping patient information for a long time, ease in handling huge amounts of data, the forecasting of disease severity, and easy diagnosis and treatment. However, the challenges include the absence of interoperability, and requirements for experts, digital devices, and a very large amount of investment. Tao et al. [31] reported several factors, such as selfefficacy, subjectivity, beliefs, facilities, and adoption behaviour which directly affect people's acceptance of health technology. These authors argued that the place of origin, the user, and the type of technology also influence people's health information acceptance. Due to the rapid development of IT, information technology (IT) has created its own space in every sector including health and is transforming societal dependence from conventional practices to modern information communications and technology (ICT). The health sector is also using these  (Figure 1). Social media and the internet are flooded with various kinds of health-related information which is easily available to people worldwide. However, the authenticity of much of this information is not verified, so people continue to need trusted information from health professionals [32]. Mobile health is the latest technological development in the healthcare industry through which the information seeker can obtain information from a health professional through a desktop computer or laptop. Electronic health (e-health) and mobile health (mhealth) use the latest communications technology to ensure that health information seekers have easy access to health 'information systems (ISs) and services [33]. Furthermore, Sebetci [34] conducted a study on users' satisfaction with information systems (ISs) and argued that the major influencing factors were the quality of the information and the system, the resources available, and the technology being used. The development of these factors can ensure the improvement of users' satisfaction with health information.

Regional covid-19 management using digital technology
Abolhassani et al. [19] investigated older people's acceptance of health ICT, reporting that it was accepted by older educated people without any concerns. According to Hossain and Muahmmad [35], emerging digital technologies can help health-related stakeholders to develop innovative solutions for health services. These technologies can ensure the development of information systems (ISs) for people's access as well as advanced technological supports through big data, AI, the IoT etc. Alsadan et al. [2] analysed the health information technology (HIT) available in Arab countries and reported poor adoption of HIT in the Arab healthcare industry, with public hospitals less professional in using digital technology than private hospitals. Using emerging technology for management of the COVID-19 pandemic has already proved critical in a few advanced countries, such as South Korea, China, Taiwan, Japan, etc. Digital technology comprises big data, the IoT, the mathe-matical forecasting model, nano technology, and telemedicine, along with easy access to information systems (ISs). AI can be a key tool in tackling the COVID-19 crisis through its assistance in rapid decision making and avoiding the rapid transmission of the coronavirus. It can also help in understanding the vaccine development process. However, according to Naude [14], AI cannot be fruitful in COVID-19 crisis management due to the exaggerated amount of unnecessary data and the scarcity of appropriate data. Aceto et al. [13], in their study on Industry 4.0 and health, concluded that information technology (IT) could support information systems (ISs) through IoT, big data, artificial intelligence (AI), and cloud computing applications to ensure better healthcare. Traditional healthcare approaches are being transformed to technology-based smart healthcare through the adoption of advanced digital technologies. Chen et al. [36] investigated how big data could help to improve healthcare services and the challenges they face. These authors reported that timely preventive services could be ensured through big data and how to set up the air quality-aware application scenarios. An enormous amount of data has been produced in the COVID-19 pandemic from health surveillance, which does not consider defensive models against adversarial perturbations [37]. According to Hua and Shaw [38], data-driven digital technologies need to be combined well with strict governance and regulations, as well as with people's participation, to ensure people's smooth access to information systems (ISs), thus assisting in preventing future pandemics like COVID-19.

Potential application of data-driven digital technology
After analyzing the available digital technology through the extensive literature review, this study identified eight key areas of applications for COVID-19 management. These comprised infection identifications; symptoms of infection; travel history; identification of transmission; early detection; people's movements; ready information in lockdown period; and development of treatments and vaccines [39]. These applications have been frequently used in the healthcare industry and are applicable to identifying, preventing, protecting against, and controlling the COVID-19 pandemic, while ensuring information system access ( Table 1).

Geographical features
Sakaka city is situated in the Kingdom of Saudi Arabia (KSA) in the northern part of the Greater Nufud desert, covering nearly 100 km 2 . The city, located 980 km north of Riyadh and 1,286 km north of Jeddah, is 566 m (1,857 ft) above sea level [40]. The population of Sakaka city is about 280,000, comprising almost 57% of the total population of the Al Jouf region. The government of Saudi Arabia has invested an enormous amount to develop it as a smart city. Although Sakaka city covers nearly 100 km 2 , the construction area of the city is around 57 km 2 . Of this land, 58% comprises the area on which buildings are constructed, whereas 38% comprises open space and 4% is unoccupied land [40].

Population and sample
This study considers people living in Sakaka city, such as university teachers, graduate students, government employees, nongovernment employees, municipal employees and personnel, the general public, and leaders of society as the study population. The sample size has been determined using the standard formula stated below: where n = the desired sample size z = the standard normal deviate, set at 1.96 p = estimated to be at 50% level.
The estimated sample is 196; therefore, 196 respondents have been included in this study.

Measurement approaches
Several approaches and indicators have been selected based on the extensive literature, expert consultation, and extensive visits to the study area. Indicators of various measurements have been modified according to the context of the COVID-19 pandemic.

Demographic characteristics, selection, and measurement
This study identified a selection of demographic characteristics of citizens living in the Sakaka city. The selected demographic characteristics comprised: age, gender, education level, years lived in Sakaka city, profession, annual income, and organizational participation.

People's access to covid-19-related information
People's access to information related to COVID-19 was determined by employing six questions with a range of indicators. These comprised: main sources of information, seeking information from non-health professionals, usefulness of information from non-health professionals, types of information, overall access to information, and information barriers.

COVID-19 information satisfaction
Several statements about satisfaction with COVID-19 information were included. These statements sought responses including respondents' satisfaction with the amount of information, the quality of information and the available sources of information. A 5-point Likert scale was applied to measure people's information satisfaction for each of these statements. The scores ranged from 0 to 5, with 5 indicating a higher level of satisfaction while a lower score showed a lower level of satisfaction.

COVID-19-related literacy
Respondents' level of literacy on COVID-19 was measured based on six statements, comprising their level of understanding; sharing of COVID-19-related thoughts with others; credibility of COVID-19-related information; checking the authenticity of information; making decisions based on this information; and using this information in daily life. A 4-point scale, ranging from 'never', 'rarely', and 'sometimes' to 'often,' rated respondents' literacy level. A high score showed that the respondent had a higher level of COVID-19 literacy while a low score showed a lower level of literacy.

COVID-19-related depression, anxiety, and stress
The study adopted the Depression Anxiety Stress Scales (DASS), developed by Lovibond and Lovibond, with appropriate modification in accordance with the research context [41]. A 4-point scale was used to rate several depression indicators such as: always feeling tense; feeling a slow-down in study; still the same enjoyment as before COVID-19; always frightened; lost interest on study; laughing at funny things; feeling restless; always thinking in his/her mind; looking forward to enjoying study; feeling cheerful with study; sudden panic; relaxed during studying; and enjoying the radio and TV programs. A high score showed high levels of depression, anxiety, and stress among respondents about COVID-19 while a low score showed a low level of depression, anxiety, and stress.

Data analysis
The latest version of SPSS (IBM SPSS Statistics) was used to analyse the collected data in order to present the results. Descriptive statistics were also done to present respondents' demographic characteristics, access to COVID-19-related information, COVID-19-related literacy, satisfaction with the information, and DASS scores. Values were expressed as percentages, means, and standard deviations. Pearson's correlation coefficients were applied to show the relationships between different variables.

Ethical approval
A formal ethical clearance was obtained from the Ethics Committee of Jouf University, Kingdom of Saudi Arabia (KSA).

Demographic characteristics of respondents
The respondents' selected key demographic characteristics related to digital technology adoption during the COVID-19 pandemic for information access and protection from possible infection. Most respondents (87.8%) were male and middleaged (aged 31-50 years). Most of them (59.2%) had Bachelor degrees and were married (84.2%). Most (91.8%) had already spent 3-5 years in Sakaka city, Kingdom of Saudi Arabia (KSA). Most respondents (56.1%) had a large family size with more than four members. About 74% of respondents had no health insurance, with only 26% having health insurance. All respondents had smartphones and internet connections and most (80%) had laptops, while 35% had a computer and 36% had a tablet (Table 2).

COVID-19-related information sources, and access
Access to information on the COVID-19 pandemic was assessed in terms of the main sources of information, information-seeking behaviours, information usefulness and types, and overall access as well as challenges faced in obtaining information (Table 3). Multiple responses were considered to identify the main sources of information. The major prelisted sources were television (TV), radio, newspapers, hospital, mosque, community meetings, and social networking. Most respondents (96%) used social networking sites for COVID-19-related information, along with radio (83%) and television (75%). About 43% of respondents obtained information from a school or workplace, while the information source for 40% was the mosque and, for 60%, community meetings. Hospital was thought to be a trusted place for pandemic-related information as doctors and nurses worked there. However, only 20% of respondents sought pandemic information from a hospital, while 26% of respondents received it from their daily newspaper. It was also found that about 66% of respondents sought information from health professionals, with only 5% arguing for the usefulness of information from non-health professionals.
Multiple responses were also used to assess the types of information that respondents sought, such as the methods of infection and symptoms of COVID-19, as well as the medicines used, health exercise, personal hygiene, treatment, isolation, and

Satisfaction with COVID-19-related information
Satisfaction with COVID-19-related information was assessed in terms of the amount, the quality, and the available sources of information. About 39% of respondents were highly satis-fied with the amount of information, while 30% were satisfied and 25% were neutral. Similarly, most respondents (about 50%) were satisfied or highly satisfied with the information quality, while the remainder were either neutral or dissatisfied. Having available information sources was the key indicator of information satisfaction. Analysis showed that most respondents (about 51%) were satisfied with the availability of sources of information, while only 11% were dissatisfied (Table 4).

COVID-19-related information literacy
The level of information literacy on the COVID-19 pandemic was assessed in terms of key indicators comprising: people's level of understanding; sharing COVID-19-related thoughts with others; credibility of the information; authenticity checking; decision making; and using information in daily life. The analysis showed that about 77% of respondents understood COVID-19-related information often or very often. About half of the respondents shared their COVID-19-related thoughts  with others, while the remainder never, rarely, or sometimes shared these thoughts. Most respondents (72%) believed in the credibility of the information obtained, while the remainder believed in its credibility sometimes or rarely. Similarly, about 71% of respondents checked the authenticity of the information often or very often. Meanwhile, most respondents (68%) made decisions based on the collected information and used the information in their daily life (Table 5).

COVID-19-related quality of life
Respondents were asked to give their opinions on their quality of life during the COVID-19 pandemic. People worldwide faced numerous challenges in maintaining their quality of life owing to continuing lockdowns, social distancing, isolation, and restricted movement. In this situation, about 40% of respondents expressed the view that they had a lower quality of life during the COVID-19 pandemic, while only 29% maintained their quality of life (Table 6).

COVID-19-related depression, anxiety, and stress
The analysis showed that, during the COVID-19 pandemic, about 42% of respondents felt tense always or most of the time in a day. Only 28.6% of respondents felt tense sometimes, whereas the remainder (about 30%) did not feel tense in relation to the COVID-19 crisis. About 46% of respondents felt a slow-down in their work or study very often or often, while 26.5% experienced this sometimes and 11.7% rarely. This study also compared the situation for respondents before and after the COVID-19 pandemic began, revealing that, after the pandemic started, 33% of respondents enjoyed things a little or hardly at all, while 20% much enjoyed things and 25% moderately. Respondents also felt frightened owing to the COVID-19 pandemic, rating this as 'very often,' 'often,' 'occasionally,' 'rarely', or 'not at all.' This study revealed that about 20% of respondents felt frightened very often or often, whereas others were frightened occasionally (26%), rarely (22%), or not at all (31%). Feeling frightened can create fear that awful events will happen, with respondents reporting that this occurred during the COVID-19 pandemic, with a significant percentage of respondents facing this fear occasionally (23.5%) or rarely (24.5%). It is known that people also forget to take care of themselves during situations like the COVID-19 pandemic. As the study's analysis found, about 16% of respondents indicated they had definitely lost interest in their appearance, while others reported this to different extents. People's ability to laugh at funny things was also rated compared to these feelings prior to the pandemic: the levels were feeling like they did before (47%), almost feeling like that (24%), and sometimes feeling like that (21.9%) ( Table 7).
Some people feel restless during periods of crises, such as pandemics. According to the current study's analysis, about 27% of respondents faced restless feelings while 7% experienced these feelings rarely or not at all. When experiencing stress, people feel like they always have something on their mind. The study's analysis showed that only 24% of respondents faced always having something on their mind, while some (17%) faced this sometimes, some (28.6%) rarely and some (30.6%) not at all. People tend to look forward to enjoying their work or study, but due to the COVID-19 pandemic, 42% of respondents often could not look forward to enjoying work or study, while 17% only looked forward occasionally to enjoying work or study and the remainder looked forward to enjoying work or study sometimes. Most respondents felt cheerful sometimes during the COVID-19 pandemic while others felt cheerful while studying or working. Most respondents (65%) did not experience feelings of sudden panic but others felt this to various levels of degree. About 66% of respondents felt relaxed while studying, while 28% felt relaxed sometimes. As a result of lockdowns and restricted movement, most respondents (44%) enjoyed the radio and TV programs, with only a few experiencing this enjoyment rarely. Most respondents (40%) experienced not enjoying their study or work often, with other respondents rating this as very seldom (22%), sometimes (22%), and often (16%).

Advanced communication system (5G and 6G) for controlling COVID-19
Wi-Fi network services have extensively used by many hospitals to allow better connection, agility, positioning as well as localization communication [42]. Medical facilities, however, are tend to EMI (electromagnetic interference), that limits the application of Wi-Fi networks services. Similarly, the heavy physical infrastructure of the hospital restricts the availability of high-frequency wall signals and causes problems with network coverage. Sometimes, it is observed that Wi-Fi network is inadequate to meet the need of communication in relations of capacity as well as connectivity during high patient loads [43]. In addition, real-time health record monitoring via IoMT devices requires wide connectivity, high consistency and little latency. In the case of emergencies, a little delay and interrupted connectivity can cause serious consequences. In hospitals, largely reliable and minimum latency network is important, especially to allow robot technology to be used. It is also necessary to safeguard the network connection through advanced security systems to avoid unauthorized access to the confidentiality of patients and sensitive information [17].
Remote healthcare is being promoted with the emergence of COVID-19 to lessen infection transmission and load of patient at the premises of hospital. Remote services are dependent on physical infrastructure for communication. Wireless networks are susceptible to safety threats like eavesdropping, blocking and spoofing, particularly in distant healthcare. If the communication network is not safe, the patient's critical information can be obtained by an eavesdropper or a spoofery. 6G Vision and Technologies Compared to earlier generations, 5G networks will offer better services with significant progress. The gaps in defense, intelligence, and wireless communication networking, that need the creation of advanced wireless networks should be ensures. Therefore, the vision of 6G is to use intelligence-based communication tools to turn the world into a safe and interlinked digital society [25]. In the same manner as Symbolic Systems, Deep Learning does not process data. DL stores data in dispersed stores rather than systemic compositions of atomic units. In symbolic structures like Information Graphs, there's an interplay with Deep Learning. The arrangement of applications by input data type from a DL perspective can support readers to know the common issues. It avoids repeatedly explaining how a Deep Neural Network inputs language or images. Its programs that use the same type of input data have a lot in common. It is obvious that deep learning can be used to detect for COVID-19 successfully.

Ensuring people's access to COVID-19-related information
The values produced in the analysis showed that most respondents were dependent on social networking sites for accessing information. It is well known that social networking sites not only possess authentic and useful information but also an enormous amount of fake and non-scientific information. Fake information may cause serious health hazards. In the COVID-19 pandemic period, social networking sites have been flooded with fake information that has caused numerous unexpected deaths worldwide. Therefore, public agencies could take the initiative to filter authentic information by using advanced digital technology. Respondents also tended to obtain information from health professionals, thus demonstrating good information-seeking behaviour. However, a common problem in the study area and in other countries is that the number of health professionals is very much lower than the required number in terms of the population. Therefore, an alternative health information delivery system should be developed using advanced cloud technology to provide rapid information services to a huge population [19]. The study respondents showed a good level of acceptability of the ground rules, such as personal hygiene, social distancing, isolation, and mass testing that are controlling the rapid transmission of COVID-19 in Sakaka city.

5.2.1
Satisfaction with COVID-19-related information People need and want readily available information to help to prepare for, and to protect themselves and recover from any infectious disease or virus. The study's findings showed that respondents were satisfied with information availability, quality, and sources. As satisfactory information empowers and motivates people, it can help them to fight a pandemic, such as COVID-19. The government can ensure people's satisfaction with information access by delivering health-related information rapidly and transparently using emerging digital technology.

5.2.2
Ensuring COVID-19-related information literacy Information literacy can enhance people's level of understanding, the credibility and authenticity of the information, as well as the ability to make decisions and implement measures in their daily life. The findings showed that respondents often understood the indicators of literacy but that a significant proportion had little interest in these issues. Therefore, various training programs, group meetings, leaflet distribution, and other contextspecific strategies should be undertaken by the government to improve people's health information literacy so they can protect themselves from the life-threatening COVID-19 infection.

5.2.3
Ensuring COVID-19-related quality of life Many people feel they are being deprived of their basic human rights owing to long-term lockdowns, social distancing, restrictions on people's gatherings, and requirements to wear masks [4]. From a social perspective, people today have not experienced this kind of pandemic or its restrictions, as the previous one on this scale was over 100 years ago. Therefore, people are experienced boredom or fatigue with the need to maintain the ground rules of this health policy. They want to lead their lives as they did before the COVID-19 pandemic but this would create more infection and greater loss of lives. These restrictions are hampering people's normal lives. Therefore, the government should take the initiative, relaxing the implementation of this health policy by ensuring technology-based management of COVID-19.

Solving depression, anxiety, and stress caused by COVID-19
People's psychological health is being affected by the long-term restriction of movement, lockdowns and social distancing, and forced vacations from the office and work. The numerous rules and stress about becoming infected with COVID-19 are gradually creating psychological vulnerability, stress, anxiety, and depression as well as emotion [44]. The study's findings also showed respondents' anxiety, depression, and vulnerability using a set of indicators. Ignoring these psychological issues will create long-term mental health effects. Anxiety refers to fear of the unknown that develops due to continuous stress. Life-threatening COVID-19 transmission not only has an impact on the education level but also causes the disinterest in daily affairs that is known as depression. The rapid transmission of COVID-19 has created significant levels of psychological vulnerability, anxiety, and depression among people worldwide. The unavailability of a vaccine, lack of effective medicines, and the rapidly changing nature of the coronavirus have created life-threatening risks and vulnerability among all people. The long-term pandemic has also created anxiety and depression among people, irrespective of their age [45,46]. Therefore, timely steps should be taken to improve emotional health, with this being an urgent task.
In the study by Wang et al. [47] in which they explored psychological stress, many Chinese people were found to be facing psychological stress due to COVID-19. Moreover, Qiu et al. [48] found that the level of psychological vulnerability was both alarming and common among Chinese people during the current COVID-19 pandemic. Almost every infectious disease affects people's mental health but COVID-19′s rapid spread and its effects are greater than for any other known disease or virus. As human beings, we, as individuals, are always interacting with others but this is now restricted by the requirement to maintain a social distance due to the coronavirus's nature of transmission to humans. Ease of access to information and technological support could reduce the transmission of COVID-19, control its spread, and help to develop appropriate treatment.

Relationships between study variables
In exploring the bivariate relationships between study variables, age was positively correlated with access to ICT tools, with this being different to findings in other studies. It is generally assumed that people of a younger age have greater access to modern technologies and the use of ICT tools. There was a negative relationship between education level and quality of life during pandemic: the higher the level of education, the less the quality of life during the pandemic. It is generally believed that educated people have greater awareness and understanding of any unexpected situation and act accordingly. However, education level contributed to their anxiety which led to difficulties in their quality of life. This finding was in line with findings of many other researchers. Access to COVID-19-related information showed a strong positive correlation with overall satisfaction: This is easily understandable and corresponds with many other studies [8]. The study found that COVID-19-related information literacy was positively correlated with depression, anxiety, and stress. When people had more knowledge and literacy about the pandemic, they became more depressed, anxious, and stressed about the situation. This also corresponded with findings of some other studies.

CONCLUSION
Remote healthcare is being promoted with the emergence of COVID-19 to lessen infection transmission and load of patient at the premises of hospital. Remote services are dependent on physical infrastructure for 4G and 5G communication. 5G Vision and Technologies Compared to earlier generations, 5G networks will offer better services with significant progress. Therefore, the vision of 5G is to use intelligence-based communication tools to turn the world into a safe and interlinked digital society. This study attempts to focus on a combination of technological applications and people's experiences during COVID-19 to formulate a suitable theoretical base for ensuring people's easy access to information systems (ISs). This study reveals several key areas in which technology could help to control the COVID-19 pandemic through ensuring user-friendly information systems (ISs). The study assesses the following five key aspects of the utilization of information by people during the pandemic: access to COVID-19-related information, COVID-19-related information satisfaction, COVID-19-related information literacy, COVID-19-related quality of life, and COVID-19-related depression, anxiety, and stress. This study reveals that most respondents receive information from social networking sites, health professionals, and TV without facing any challenges. The main types of information usually sought are for managing this health crisis, such as methods of infection, social distancing, and isolation. People also like to obtain useful information from available sources at a desirable quality. The level of COVID-19-related information literacy among respondents was not at the level expected which would require much attention from government agencies. People's overall quality of life was reduced due to this long-term pandemic. The pandemic is also creating several psychological symptoms including anxiety, stress and depression, irrespective of people's age. For any safety and privacy threats, healthcare innovations anticipated in 5G should be vigorous technology. For example, during remote surgery, endwise linkage safety is essential for avoiding any undesirable interruption and attack from outsiders. As an artificial intelligence tool, deep learning (DL) can provide accurate results in helping to analyse lung diseases like COVID-19 using CT images. Advancing from the robust learning capabilities of the feature, DL can automatically mine structures which are linked to clinical results. This study recommends that the government of every country initiate a national program though the integration of digital technology to ensure people's access to information to control the COVID-19 pandemic. This study is based on only primary data from the respondents of a specific city, and similar kind of study can be extended in other places by increasing sample size and adding secondary data.