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1425119
牙科模拟器市场 - 2024 年至 2029 年预测Dental Simulator Market - Forecasts from 2024 to 2029 |
预计牙科模拟器市场在预测期内将以 9.37% 的复合年增长率成长。
透过虚拟实境 (VR),牙科模拟器提供了复製口腔内软组织和硬组织的临床诊断和治疗环境。此外,力回馈技术再现了桿与牙齿、口腔镜以及软硬组织之间的接触力。近年来,牙科模拟器主要用于大学课程和职业成人培训。
虚拟实境在牙科模拟器中的应用
VR(虚拟实境)是一种创造一个在视觉、听觉、触觉等感官上与真实环境完全相同的数位世界的技术。 VR 在牙齿模拟器中的采用刺激了牙科模拟器市场的成长。使用特殊技术,操作员可以与虚拟物品进行互动并从中获取输入。立体显示设备、运动追踪设备、输入设备和计算平台组成了一个完整的VR系统。头戴式显示器和洞穴自动虚拟环境是两种常见的立体显示设备。
牙齿模拟器的优点
与传统的模型为基础的教学技术相比,牙科模拟器具有多种优势,可以为学生提供更好的学习环境。此外,透过使用牙科模拟器,学生不仅可以学习牙科治疗技能,还可以学习相关的理论讯息,这将加速牙科模拟器市场的成长。牙科模拟器为学生提供了更具适应性的训练环境,以实现可重复的临床技能临床前教育。此外,使用牙科模拟器进行训练更加实用,因为它可以重现与真实临床环境中类似的场景。
增加患者术前模拟训练的知识
牙医学生可以轻鬆转移到患者诊所。牙医学校提供各种模拟教学技术和方法,这导致了牙科模拟器市场的成长。牙科指导非常全面,不仅涵盖口腔卫生。此外,也向牙科学生教授药理学、解剖学、人类生物学和一般卫生学。牙科技能培训师为牙科初学者提供最佳的学习环境,同时解决临床前教学要求和病人安全问题。
牙科模拟器市场的技术进步
5G技术的发展,实现了高频宽、低时延的传输路线。虚拟口语训练系统通常在伺服器端进行计算以提高准确性。利用5G技术,伺服器主机和显示设备可以以更快的速度和更短的回应时间传输牙科模拟器市场中大量使用的高清影像资料。这提高了使用者舒适度并实现更可靠的视觉和触觉输入。
深度学习技术经常用于建立输入输出映射、使用神经网路抽象问题以及从大量资料中发现规则。深度学习也应用于触觉领域,它可以让力回馈设备透过从物体照片中提取触觉属性来精确匹配真实的物理属性,而无需手动更改物理设置,从而使我们能够创建反馈的感知。
在北美,牙科模拟器市场预计将稳定成长。
北美牙科模拟器市场预计将受到主要市场参与者的存在和该地区医疗保健支出的增长的推动。例如,根据美国医学会的数据,2021年美国医疗保健支出将增加2.7%,达到4.3兆美元,即人均12,914美元。支出大幅放缓可能与政府在疫情相关费用方面的支出减少以及医疗用品和服务的使用增加有关,由于治疗延迟和需求增加,医疗用品和服务的使用量从 2020 年开始有所恢復。此外,2023 年 2 月,购买了 10 台模拟器,为学生提供大学混合实境患者模拟学习空间独特的实作学习体验。
牙科模拟器产品
FDA核准牙科模拟器
The dental simulator market is estimated to grow at a CAGR of 9.37% during the forecast period.
Through virtual reality (VR), the dental simulator offers a clinical diagnosis and treatment environment and duplicates both soft and hard oral tissues. It also replicates the contact force between the bur and the tooth, the mouth mirror, and the soft and hard tissues using force feedback technology. The dental simulator has mostly been utilised for university instruction and adult vocational training in recent years.
Utilization of virtual reality in dental simulators
Virtual reality (VR) is a technology that generates a digital world that is identical to the actual environment in the visual, auditory, tactile, and other senses. This adoption of VR to dental simulators is fueling the dental simulator market growth. Using specialised technology, the operator may interact with the virtual items and get input from them. A stereo display device, a motion tracking device, an input device, and a computing platform make up a comprehensive VR system. The head-mounted display and the Cave Automatic Virtual Environment are two common types of stereo display devices.
Advantages of dental simulators
Dental simulators provide several advantages over phantom-based traditional teaching techniques, which provide students with a better learning environment. Through dental simulators, students may also learn relevant theoretical information in addition to dental operating skills surging the dental simulator market growth. Dental simulators provide students with a more adaptable training environment because they enable repetitive and reversible preclinical teaching of clinical skills. Additionally, dental simulator training is more practically applicable since it replicates scenarios that would be seen in a real clinical setting.
Growing knowledge of pre-patient simulation training
Dental students can transfer easily to patient clinics because of pre-patient simulation training. Dental schools provide a variety of simulation instructional techniques and methodologies leading to the growth of dental simulator market. Dental instruction is quite thorough and covers more than simply oral health. Additionally, pharmacology, anatomy, human biology, and general health are taught to dental students. Dental skill trainers provide the most suitable learning environment for beginning dental students while addressing the requirement for preclinical instruction and patient safety issues.
Technological advancements in the dental simulator market
High bandwidth and low latency transmission channels are possible due to the development of 5G technology. Calculations are frequently done on the server side in the virtual oral training system to increase accuracy. By using 5G technology, the server host and display device may transmit high-definition video data at a pace that is significantly faster and with less reaction latency which is significantly being used in dental simulator market. This will increase comfort for users and give them more trustworthy visual and tactile input.
Deep learning techniques are frequently employed to build input and output mapping, abstract issues using neural networks, and discover rules from enormous amounts of data. Deep learning has been used in the field of haptics to extract haptic qualities from photographs of objects, allowing force feedback devices to produce a perception of force feedback that accurately matches genuine physical attributes without the need to manually alter physical settings.
In North America, it is projected that the dental simulator market will grow steadily.
The dental simulator market in North America is anticipated to be fueled by the presence of major market players and growth in healthcare expenditure in the region. For instance, according to the American Medical Association, in 2021, the United States spent 2.7% more on health care, amounting to $4.3 trillion or $12,914 per person. This significant slowdown in spending can be linked to a drop in government spending on pandemic-related expenses countering a rise in the use of medical supplies and services that recovered from 2020 owing to delayed care and pent-up demand. Additionally, in February 2023, in the college's Mixed Reality Patient Simulation Learning Space, ten simulators were bought to give students a distinctive, practical learning experience.
Dental Simulator Products
FDA Approvals for Dental Simulators
Market Key Developments