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IOT 융합 인증체계
디지털 사회는 IOT융합 인증보안체계를 절박하게 요구한다. http://blog.naver.com/gcodpasscon/221159044413 1. 서론 인증에 대한 수요는 보안 목표를 달성하고 KYC(know Your Customer)를 통하여 고객 만족과 편의를 제공하며. 서비스나 상품의 경쟁력을 강화하기 위하여 필수적인 비즈니스 요구로 부터 시작된다. 이러한 인증보안 수요는 모든 산업에 걸쳐 고객 주기 전반에 걸쳐서 빈틈 없이 내재되고, 연결되고 관련되어야 한다. 특히 4차산업혁명(Digital Transformation)이라고 부르는 최근의 동향에서 알 수 있듯이 향후 10년 이상 지속적인 변화의 압박이 모든 인간의 생활 속으로 파고들 것이다. 이러한 압박은 이전에 경험하거나 상상할 수 없었던 복잡성과 다양성을 쏟아내게 될 것이다. 여기서 주목되어야 할 것은 긍정과 부정의 효과는 항상 동시 다발적으로 발생한다는 점이다. 초연결을 지향하는 4차디지털변환기에 있어서 가장 핵심적인 부정적 효과 란 바로 프라이버시와 보안이라고 말할 수 있겠다. 왜냐하면 연결은 좋은 객체와의 연결을 통한 새로운 가치의 신속한 창출과 향유를 제공하지만 동시에 악의적인 목적에 이용될 가능성에 그만큼 더 많은 문을 열어주는 것과 같기 때문이다. 2. 눈 앞의 디지털 세상 초 연결 사회는 IT기반의 디지털 사회나 마찬가지다. 아날로그의 가치와 향수는 개인의 취미나 취향으로는 남겨지게 될 것이다. 대부분의 인간 활동과 기업의 활동이 디지털화되어 기획, 구축, 운영, 관리되는 세상이 올 것이다. 적어도 20년 이내에는 화폐조차 완전히 사라질 가능성이 높다. 그것이 구지 지금의 비트코인과 같은 암호화폐일 필요는 없다. 미래의 화폐가 무엇이 되었던 그것은 중요하지 않다. 다만 디지털화될 것이란 것에는 아무도 이견이 없을 것이다. 최근의 핀테크 이슈도 그러한 맥락에서 생겨난 하나의 현상이다. 아날로그의 마지막 추억은 화폐가 될 것이며 그 마저 디지털화되어 사라진다면 세상은 디지털이 아닌 것이 없게 된다는 것과 진배없다. 3. 조화 하루가 다르게 기술은 진화 발전한다. 때로는 어느 단계를 뛰어넘는 듯 한 현상도 종종 목격된다. 불가능을 가능하게 하며 상상을 현실로 만들어 버리는 폭발적인 실험들이 연일 지속되고 있다. 어떤 합리적인 투자가의 입장에서 보면 이러한 노력들이 밑 빠진 독에 물 붓기로 보이기도 한다. 그러나 분명한 것은 변화와 발전은 지속되고 있다는 것이다. 진화와 발전은 긍정과 보편적 가치를 지향한다고 믿어진다. 하지만 그 과정이 항상 명확하고 좋은 방향으로만 흘러가기는 어렵다. 기술과 기술 간의 간극이 벌어지기도 하고 연결과 호환의 불 안정성으로 예기치 못한 재앙적 결과를 가져오기도 한다. 특히나 특정 기술의 개발과 응용이 집단화된 이기주의에 의하여 주도되거나 퇴출되어 인류의 이익에 반함에도 불구하고 수용을 강요당하기도 한다. 그러므로 조화가 필요하다. 조화는 보편적 가치를 추구하는 사람들의 노력이 뒤 받침 되어 지속적인 시도와 퇴출의 반복을 통하여 이루어 질 것이다. 4. 인증보안 체계의 중요성 인터넷에 연결된 60억 사용자와 모발일로 연결된 30억 사용자가 매일 24시간 온라인 상태로 무엇인가를 하고 있다. 인터넷은 그 시작이 개방형 오픈 네트워크이다. 즉 누구나 접속할 수 있는 사이버 세상이라고 여겨져 왔다. 여기까지는 문제될 것이 없었다. 그러나 인터넷은 접속과 정보 전송을 한참 뛰어 넘어 이제는 무엇이나 할 수 있는 사어버 공간이 되었고 나아가 현실과 인터넷을 구지 구분할 필요를 느끼지 못할 수준에 도달했다. 급기야 인터넷의 핵심 가치라고 할 수 있는 “누구나 어디서나 접속"때문에 눈부신 발전을 이루었지만 이제는 동일한 이유로 전례 없는 문제와 위협에 노출되었다. 이제 다시 인증보안에 대한 이야기로 돌아가 보자. 필요에 따라 누구인지, 무엇인지, 무엇을 할 것인지, 허용을 할 것인지 아니면 차단 할 것인지, 허용한다면 그 권한의 수준은 어디까지 할 것인지, 불순한 의도를 사전에 파악할 방법은 없는지 등등을 결정하고 적용함에 있어서 신뢰할 수 있고 자동화가 가능한 뛰어난 결정 알고리즘이 필요하게 되었다. 이 알고리즘이 바로 인증보안체계이다. 한마디로 신뢰로운 인증보안 체계 없이는 오늘날 세상은 하루도 운영이 불가능하다는 것이다. 5. 인증체계의 구조 고객 감동을 추구하는 수 많은 가치 개발 노력들은 수많은 디바이스를 탄생시켰다. 특히 IOT 디바이스는 수십억 개가 연결되는 세상으로 치닫고 있다. 네트워크의 특성상 이들이 직접적으로 연결될 필요는 없다. 다시 말해 연결되지 않았지만 언제라도 연결될 수 있는 구조를 가지고 있다는 뜻이다. 디바이스를 네트워크를 통해 사용자가 제어하고 통제하고 이용할 수 있어야 하고 디바이스는 정당한 사용자나 신뢰할 수 있는 다른 디바이스만 연결을 허용할 수 있어야 한다. 뿐만 아니라 급속히 늘어나는 디바이스와 서비스 서버들이 사용자를 정확히 식별하고 인증된 사용자에게만 로그인, 거래 및 전자서명을 허용하는 인증체계가 필요하다. 구지 언급하자면 현재 이 과정을 비밀번호라는 인증수단이 가장 광범위하게 담당하고 있다. 이는 매우 심각하고 안일한 대응이 아닐 수 없다. 보다 안전하고 긴편한 디바이스와 사용자에 대한 동시 인증체계가 긴급하게 필요하다. 6. 위험 헷지 “혹자는 아직까지 잘 돌아 가고 있지 않나” 라고 말할 수도 있겠다. 그러나 정말 잘 돌아가는 것인가? 인증보안 문제가 어떻게 관리되고 있는지 소비자 생활과 산업을 연관 지어 살펴보면 이 문제는 명확하다. 전혀 잘 가동되고 있지 않으며, 불공평하며 심지어 집단 내지는 자본 이기주의가 숨어 있지 않나 의심이 들 정도이다. 인증체계의 구축과 운영 환경은 기술선도국이나 추종국이나 별반 차이가 없다. 현재까지도 온라인 인증은 비밀번호가 99% 이상을 차지하고 있다. 사이버 범죄로 인한 천문학적인 피해가 바로 이 비밀번호의 허술한 보안체계 때문임은 말할 필요도 없을 것이다. FIDO생체인증 표준이 비밀번호를 없애 줄 것이라 생각하는 것은 큰 오해이자 착각이다. 생체정보를 등록하기 위하여 먼저 비밀번호로 로그인하는 과정을 거치기 때문이다. 그러므로 비밀번호에 의존하는 이상 인증보안체계는 그 수준이 대동소이 하다고 보아도 무리가 없을 것이다. 그렇다면 비 대면 온라인 환경에서 핀테크나 금융산업이 활발하게 발달한 국가와 그렇지 않은 국가의 차이는 무엇 때문일까? 많은 여러가지 이유가 있겠지만 그 격차는 보험 산업의 수준과 관계가 깊다고 하겠다. 사이버 보험이 발달하고 거대 시장이 존재하는 국가에서는 보안침해로 인한 손실을 대부분 보험으로 헷지 할 수 있다. 보험료가 비용인 것은 분명한 사실이고 축소시키고자 하는 위험관리 부서의 미션도 있지만, 그럼에도 불구하고 보험은 가장 효과적인 위험관리 솔루션임에 틀림없다. 안타깝게도 선진국을 제외하고는 이러한 사이버 보험이 발달하지 못했다. 거대자본과 대규모의 기술자를 보유한 기업들조차 기술적으로 인증보안 체계를 개선하지 못하고 보험에 의존하는 것은 그 만큼 풀기 어려운 숙제이기 때문일까? 아니면 전락적 포석일까? 7. 결론 우리는 디지털변환기 또는 4차산업혁명이라는 단어를 인용하지 않더라도 인증보안체계의 중요성을 잘 알고 있다. 대한민국의 경우 최근 수년 사이에 사이버 위협으로 인하여 디지털 금융이 오히려 퇴보하였다. 일각에서는 비밀번호로 다 되는 해외 사례를 궁극의 정답인양 피상적인 정보로 혼란만 가중하였고 공인인증서 기반의 인증체계는 기술적/가치적으로 발전을 이루지 못하였다. 그 결과 지연이체, 이체한도 축소, 출금지연, 간편결제의 난립 등으로 불편함이 오히려 가중되었다. 요란한 생체인증이나 블록체인이 우리의 실생활에 추가적인 편의성과 안전성을 제공하였는지 다시 생각해볼 일이다. 기존의 디지털 금융 서비스가 퇴보하였다고 느낀다면 무엇이 부족한지 무엇을 해야 하는 지에 대하여 추가적인 부연 설명은 더 이상 필요가 없다고 할 수 있겠다. 이제 중요한 것은 지금부터이다. IOT시대는 거스를 수 없는 대세이고 기존의 디지털 가치 서비스는 IOT와 결합되어 더욱 분화되고 결합될 것이기 때문이다. 그러므로 어플리케이션과 IOT의 융합 인증보안체계는 이 시대의 가장 핵심적인 선결과제임에 틀림없다. http://blog.naver.com/gcodpasscon/221159044413
IoT and Its Impact on the Manufacturing Industries
IoT has been providing the businesses with the scope to form new and advanced solutions that allow the development of the latest solutions based on the Internet Of Things enabled solutions. The Industries like manufacturing are the ones which get highly benefited out of it. The IoT is making way for the advanced industrial developments and formation of Industry 4.0 solutions that allows the utilisation of technology in creating solutions and covering the domain of manufacturing. As industry 4.0 moves ahead it is able to generate momentum integrating IoT Devices, automation, and other tools that have now become a functionality under the growing architecture for the IoT. To make you understand well on the concept of Internet Of Things, let's take you a bit deeper and enhance your understanding: What exactly is IoT? As termed by the researchers IoT stands for the Internet of Things, under it the devices that operate ranging from the smart lights, smart sensors and others. These devices are making the use of technologies like WIFI, Li-FI, bluetooth for their functioning. As per the reports, IoT has been experiencing a high growth in investments for manufacturing with a projected growth of $260 billion by 2024. Under IoT positive growth reflects on the segmenting that follows upon with the detailed inclusion of the technological advancements that are taking place under IoT The Industrial IoT has been playing its role in enhancing the IoT Technology based developments in the manufacturing domain. Some of the IoT operations taking under manufacturing are: Manufacturing Operations Under IIoT Industrial IoT has been putting the emphasis on the developments taking place in the manufacturing domain with its operations getting segmented with for the IoT based inclusions like assets management, intelligent manufacturing, end-to-end devices optimization and monitoring, and others from Industry 4.0. Production asset management and maintenance It is considered as the highly utilised and one of the most used cases under the IoT in manufacturing with a large number of potential devices and applications working under it. Production asset monitoring and tracking with the manufacturing parameters like quality, performance, damage and breakdowns of the devices. IoT allows us to better monitor, improve performance and optimize the manufacturing devices operational capabilities. Improved Monitoring Equipment Utilisation IIoT has been improving the manufacturing equipment monitoring capabilities and allowing businesses to opt in for more and more developments under it. As it allows an improved productivity by 15- 25% and hence making a rightful impact on the manufacturing growth. Manufacturing machine utilisation takes in the various number of parameters that bring in the desired impact some of these are run time, product output, that bring in the impact with real time data monitoring and cloud service utilisation for the transmission of it as per the operational requirements. Enterprise Inventory Management With the large manufacturing businesses operating under the inventory management and utilising the resources offered under IoT to bring in the required inventory management solutions for their enterprise. Under IoT the inventory management has improved the production and efficiency from 30-50% for the enterprises The enterprise inventory management solutions work under IoT and RFID technologies. Predictive Maintenance Solutions Predictive maintenance works on the real time monitoring of the manufacturing equipment and brings in the parameters with the insights taken up from it. Machine learning algorithms also play their part in predictive maintenance.
Increased Adoption of Refurbished Diagnostic Imaging Systems - Fluoroscopy Equipment
The market for fluoroscopy equipment is expected to grow from USD 5.9 billion in 2020 to USD 7.5 billion by 2025, at a CAGR of 4.8% during the forecast period. Growth in the fluoroscopy equipment market is attributed to factors such as the advantages of FPDs over image intensifiers, the use of fluoroscopy in pain management, reimbursement cuts for analog radiography systems, the rising geriatric population, and the growing prevalence of chronic diseases.  The COVID-19 pandemic has significantly impacted the buying capacity of hospitals, especially small-scale hospitals and scanning centers. According to an article in Livemint, private hospitals in India have faced revenue losses of up to 90% due to the COVID-19 pandemic. The pandemic has also impacted the operation of manufacturing companies.  The evolution of fluoroscopy systems and C-arms from traditional X-ray image intensifier technology to digital flat-panel detectors (FPDs) has brought about significant advancements in fluoroscopic imaging. FPDs have a number of advantages over image intensifiers, including compact sizes and reduced radiation dose. Systems with FPDs have the potential for higher image resolution than their predecessors.  FPDs offers no image distortion, greater sensitivity, and better patient coverage. Due to their advantages, many hospitals are now opting for FPD fluoroscopes. The growing preference for advanced technologies, and the need to shift to new, more efficient products, will be a key factors driving the growth of this market segment.  Download PDF Brochure With Latest Edition @ https://www.marketsandmarkets.com/pdfdownloadNew.asp?id=23056341 Fluoroscopic procedures can result in high radiation dose exposure for complex procedures, such as stent placement. These procedures are time-consuming, which greatly increases the radiation that patients are exposed to and the risk of hazards such as radiation-induced injuries to the skin and underlying tissues. The long-term side-effects of prolonged radiation exposure can also include cancer. This has served to push users towards non-radiation modalities, particularly in the case of pediatric patients. For instance, the ACR (American College of Radiology) Appropriateness Criteria specify that for infants younger than two months, ultrasound should be considered before a fluoroscopic examination. Additionally, CT examinations can completely eliminate the need for a fluoroscopic examination, as a CT scan is noninvasive as opposed to minimally invasive fluoroscopic imaging.  Many hospitals in developing countries are unable to invest in fluoroscopy equipment due to their high costs, poor reimbursement rates, and budget constraints, and therefore prefer refurbished systems. These systems are less expensive than new systems—approximately 40% to 60% of the original price. Increasing demand for refurbished devices poses a major challenge to the sales of new instruments—and, subsequently, to the growth of market players and small manufacturers. Get Data as per your Format and Definition | REQUEST FOR CUSTOMIZATION: https://www.marketsandmarkets.com/requestCustomizationNew.asp?id=23056341 These systems come with a software package that helps store patient information. With the help of data integration, physicians can easily compare scans to effectively observe disease progression. To devise a treatment plan, clinicians are demanding access to integrated, comprehensive data on the patient’s diagnostic history. In addition to data integration, there lies a huge opportunity for making data available through mobile technologies. This will help doctors to view and study scans wherever they are. Due to their advantages, convenience, and huge demand from clinicians, data integrated systems offer a huge opportunity for market growth. The rising prevalence of cardiovascular diseases and the increasing number of orthopedic surgeries are some of the major factors driving the growth of the mobile C-arms market. C-arms are used for a wide range of applications, including surgeries for cardiovascular diseases, neurosurgeries, and surgeries for gastroenterology, orthopedics, traumatology, and urology disorders. Cardiology is the largest diagnostic application segment of the fluoroscopy equipment market. The large share of this segment is attributed to the high burden of cardiovascular diseases (CVDs) worldwide and the convenience and better results offered by fluoroscopy systems during the diagnosis and treatment of various cardiac disorders. Key Market Players The major players in the fluoroscopy equipment market are Siemens Healthineers (Germany), GE Healthcare (US), and Philips (Netherlands). These companies together accounted for a share of ~80% of the fluoroscopy equipment market in 2018. Other players in the market include Shimadzu Corporation (Japan), Ziehm Imaging GmbH (Germany), Toshiba Medical Systems Corporation (Japan), Hitachi Ltd. (Japan), Carestream Health, Inc. (US), Hologic, Inc. (US), Lepu Medical Technology Co., Ltd. (China), Agfa-Gevaert Group (Belgium), and ADANI Systems Inc. (Belarus) among others.
Afinal, o que é VPN? Descubra como cuidar do seu acesso remoto!
Se você tem uma empresa precisa se preocupar com muitas tarefas, ações e responsabilidades, principalmente se possui um espaço físico para trabalhar com seus demais funcionários. As empresas com espaço físico precisam oferecer aos trabalhadores uma boa infraestrutura para que realizem todas suas tarefas e na grande maioria das vezes, isso engloba uma conexão com a internet que seja boa e segura. Ao oferecer computadores e uma rede de internet aos seus funcionários, você precisa se preocupar e ficar atento à segurança do tráfego de dados e informações, afinal arquivos e o histórico da empresa estão atrelados à isso. E é nessa parte que o VPN entra para que você consiga cuidar do acesso remoto. A seguir, veja mais detalhes e entenda perfeitamente o que é VPN e como ele pode ajudar a sua empresa. VPN: o que é? VPN, em nossa língua, significa Rede Virtual Privada e a sua função principal é garantir o tráfego de dados de uma maneira muito mais segura e ainda permitir o acesso remoto protegido à rede interna de uma empresa. Se trata de uma ferramenta de segurança muito mais do que essencial para as empresas, pois você estará protegendo dados e informações referentes ao seu negócio e evitar que suas informações sejam roubadas ou acessadas por hackers. A VPN ganhou mais buscas nesse período em que a grande maioria das empresas estão com seus funcionários trabalhando em home office. Cada funcionário, na sua casa, ao se conectar à internet, é identificado pelo número de IP e os seus dados podem trafegar abertamente, isso significa que podem ser acessados por qualquer pessoa. Tendo uma rede privada, que é oferecida pela VPN, o usuário, os dados e as informações ficam protegidos e não é identificado tão facilmente. A VPN pode ser usada para interligar mais de uma unidade da empresa e para fornecer a conexão remota aos funcionários, por isso ela se tornou tão popular e procurada nos últimos meses. VPN: como funciona? A VPN funciona de uma maneira muito fácil e prática. Vamos dar alguns exemplos para que você consiga entender melhor. Quando acessamos o navegador do nosso computador, na barra de pesquisa e ao lado do endereço eletrônico, há um pequeno cadeado. Esse cadeado é sinônimo de segurança e ele está presente na grande maioria dos sites, e ele informa que a sua navegação está segura e que o seu tráfego de dados só poderá ser acessado pelo servidor daquela empresa/loja/companhia/site. Quando você usa a VPN, essa segurança é expandida para toda a sua conexão. Isso porque, alguns sites não possuem esse cadeado e essa segurança, deixando seus dados expostos. Quando você usa a VPN, a segurança é garantida em todas as situações. Você fica disfarçado e usa um endereço de IP falso. No caso das empresas, ao usar VPN, você se conecta diretamente ao firewall da sua empresa e assim ninguém consegue identificar o seu verdadeiro IP e fica protegido. A sua conexão também é criptografada para que ninguém tenha acesso aos dados que são carregados e baixados. VPN: por que investir? Você já entendeu o que é uma VPN e como ela funciona, mas ainda não está convencido de porquê usá-la na sua empresa? Bem, nós explicamos o motivo. Acontece que quando a sua empresa permite o acesso externo dos seus funcionários, de suas casas por exemplo, há uma troca de dados e informações entre as redes que fica exposta e há grandes riscos de hackers obterem todo esse tráfego e acabarem roubando as informações. Alguns trabalhadores gostam de ir em diferentes lugares para trabalhar como em livrarias e cafeterias com rede Wi-Fi. Essa é uma rede pública que pode ser acessada por qualquer um facilmente e ter acesso a dados como usuário e senha. Com a VPN, todo o acesso de seus funcionários estará 100% seguro e protegido. VPN: conheça os tipos Existem vários tipos de VPN para você escolher e contratar para a sua empresa. Você poderá conhecer três opções a seguir: - VPN Site a Site: é uma VPN muito usada em operações corporativas principalmente no caso de empresas que possuem unidades no Brasil e no exterior ou até mesmo em diferentes estados, pois ajuda a conectar a rede da matriz com as filiais. As empresas podem usar também esse tipo de VPN para se conectar a outras empresas. Nada mais é do que uma ponte virtual que ajuda a reunir redes de diferentes lugares, mantendo uma conexão mais segura e privada; - VPN PPTP: é o tipo mais comum que pode ser usado tanto por empresas quanto por pessoas comuns. Não exige a compra nem mesmo a instalação de um hardware extra, para acessar basta informar o login e a senha de usuários aprovada. Através da conexão com a internet, você se conecta com a rede VPN e se torna um usuário remoto, que não pode ser encontrado. Entretanto, esse tipo de VPN não oferece criptografia; - VPN L2TP: esse é um modelo que se combina com outra ferramenta de segurança para fornecer mais privacidade ainda. Ele forma um túnel entre dois pontos de conexão L2TP e uma VPN, enquanto acontece também a criptografia dos dados. Contrate VPN da SS3 Tecnologia A SS3 Tecnologia é uma empresa focada em serviços de Tecnologia da Informação para corporações que desejam garantir mais segurança, privacidade, agilidade e praticidade no seu ambiente de trabalho e a todos os seus funcionários. Entre os diversos serviços de gestão de TI que são oferecidos pela SS3, está a opção de você obter uma VPN para sua empresa e para os seus funcionários. Eles fazem toda a instalação de acordo com as necessidades da sua empresa, além de explicarem como funciona e ajudarem na criação das senhas para todos os seus colaboradores. Se torna um sistema muito prático e é um investimento excelente para a empresa, que estará garantindo a sua proteção e evitando problemas com hackers ou com vazamento de informações importantes.
Light Business Jet Market Size 2021 Demand, Global Trend, News, Business Growth, Top Key Players Bombardier, Embraer, Textron Aviation, Honda Aircraft Company, Cirrus Aircraft, etc
" Global Light Business Jet Market is growing at a High CAGR during the forecast period 2021-2026. The increasing interest of the individuals in this industry is that the major reason for the expansion of this market and This has brought along several changes in This report also covers the impact of COVID-19 on the global market. Overview Of Light Business Jet Industry 2021-2026: The latest research report, titled “Light Business Jet Market” Added by Market Info Reports, provides the reader with a comprehensive overview of the Light Business Jet Industry and familiarizes them with the latest market trends, industry information, and market share. The report content includes technology, industry drivers, geographic trends, market statistics, market forecasts, producers, and raw material/equipment suppliers. Global Light Business Jet market size was xx million US$ and it is expected to reach xx million US$ by the end of 2026, with a CAGR of XX between 2021 and 2026.  Light Business Jet Market competition by top manufacturers as follow: Bombardier, Embraer, Textron Aviation, Honda Aircraft Company, Cirrus Aircraft, Pilatus Aircraft and More... Get Sample PDF including COVID19 Impact Analysis, full TOC, Tables and Figures@ https://www.marketinforeports.com/Market-Reports/Request-Sample/310837 Don’t miss the trading opportunities on Light Business Jet Market. Talk to our analyst and gain key industry insights that will help your business grow as you create PDF sample reports. The global Light Business Jet market has been segmented on the basis of technology, product type, application, distribution channel, end-user, and industry vertical, along with the geography, delivering valuable insights. Market Segment by Type, covers: Light Jets Very Light Jets Market Segment by Applications, can be divided into: Domestic Transport International Transport Share your budget and Get Exclusive Discount @ https://www.marketinforeports.com/Market-Reports/Request_discount/310837 Market segment by Regions/Countries, this report covers: North America Europe China Rest of Asia Pacific Central & South America Middle East & Africa Years Considered to Estimate the Market Size: History Year: 2015-2019 Base Year: 2019 Estimated Year: 2021 Forecast Year: 2021-2026 Major factors covered in the report: Global Light Business Jet Market summary Economic Impact on the Industry Market Competition in terms of Manufacturers Production, Revenue (Value) by geographical segmentation Production, Revenue (Value), Price Trend by Type Market Analysis by Application Cost Investigation Industrial Chain, Raw material sourcing strategy and Downstream Buyers Marketing Strategy comprehension, Distributors and Traders Study on Market Research Factors Global Light Business Jet Market Forecast Detailed TOC of Light Business Jet Market Report 2021-2026: Chapter 1: Light Business Jet Market Overview Chapter 2: Economic Impact on Industry Chapter 3: Market Competition by Manufacturers Chapter 4: Production, Revenue (Value) by Region Chapter 5: Supply (Production), Consumption, Export, Import by Regions Chapter 6: Production, Revenue (Value), Price Trend by Type Chapter 7: Market Analysis by Application Chapter 8: Manufacturing Cost Analysis Chapter 9: Industrial Chain, Sourcing Strategy and Downstream Buyers Chapter 10: Marketing Strategy Analysis, Distributors/Traders Chapter 11: Market Effect Factors Analysis Chapter 12: Light Business Jet Market Forecast Continued…… Access full Report Description, TOC, Table of Figure, Chart, etc. @ https://www.marketinforeports.com/Market-Reports/310837/Light-Business-Jet-market The analysis objectives of the report are: To know the Global Light Business Jet Market size by pinpointing its sub-segments. To study the important players and analyse their growth plans. To analyse the amount and value of the Global Light Business Jet Market, depending on key regions To analyse the Global Light Business Jet Market concerning growth trends, prospects and also their participation in the entire sector. To examine the Global Light Business Jet Market size (volume & value) from the company, essential regions/countries, products and application, background information. Primary worldwide Global Light Business Jet Market manufacturing companies, to specify, clarify and analyse the product sales amount, value and market share, market rivalry landscape, SWOT analysis and development plans for future. To examine competitive progress such as expansions, arrangements, new product launches and acquisitions on the market. Does this report provide customization? Customization helps organizations gain insight into specific market segments and areas of interest. Therefore, Market Info Reports provides customized report information according to business needs for strategic calls. Get Customization of the Report@: https://www.marketinforeports.com/Market-Reports/Request-Customization/310837/Light-Business-Jet-market Why Choose Market Info Reports?: Market Info Reports Research delivers strategic market research reports, industry analysis, statistical surveys and forecast data on products and services, markets and companies. Our clientele ranges mix of global business leaders, government organizations, SME’s, individuals and Start-ups, top management consulting firms, universities, etc. Our library of 600,000 + reports targets high growth emerging markets in the USA, Europe Middle East, Africa, Asia Pacific covering industries like IT, Telecom, Chemical, Semiconductor,  Healthcare, Pharmaceutical, Energy and Power, Manufacturing, Automotive and Transportation, Food and Beverages, etc. This large collection of insightful reports assists clients to stay ahead of time and competition. We help in business decision-making on aspects such as market entry strategies, market sizing, market share analysis, sales and revenue, technology trends, competitive analysis, product portfolio, and application analysis, etc. Contact Us: Market Info Reports 17224 S. Figueroa Street, Gardena, California (CA) 90248, United States Call: +1 915 229 3004 (U.S) +44 7452 242832 (U.K) Website: www.marketinforeports.com"
Qualities to look in full-stack IoT development company
Our daily lives run on smart software every device we use is connected with each other, we use our smartphones to switch on tv and AC's, smart washing machines, refrigerators, AI. IoT devices have increased over the years producing enough data and this will only continue to rise in the coming years. Considering the rise in IoT technology and devices the demand for IoT developers will only increase. IoT is a potential industry that will see tremendous growth in the coming years, not only will the IoT industry grow it will also create more and more employment opportunities. Full-stack IoT development has a huge demand and A the hunt IoTdeveloper that knows the entire development stack for a system and has knowledge and understanding of certain facets can help generate better products more quickly. So, what are the attributes and expertise a company or a developer should master to become a full-stack IoT development company of a full-stack developer? Layered full-stack IoT development ( sensors, microcontrollers, and an internet connection, IoT service platforms The layered IoT stack consists of a sensor, Microcontrollers, internet connection, and IoT Service platforms In a variety of applications, small and economical sensors are used.This layer continues to expand with the addition of new products of new Internet-connected sensors. There is no need to link new-age sensors directly to the internet. The data you send will be recorded in the cloud which will be later synchronized with smartphones, dongles, or any other smart appliance. Microcontrollers, internet connection the layer in which is stored and processed.Before uploading data to the cloud it will be evaluated, and summarised to obtain the precise data, which will reduce the cost of the transaction. IoT Service platforms this layer helps automate the process and generate information by evaluating the data gathered from different IoT sensors and linked devices. It increases post-transaction interactions so that both company and end-users may track, maintain and update the firmware on the devices through platform insights and feedback. ATTRIBUTES OF FULL-STACK IOT DEVELOPMENT Embedded Level Programming/Firmware The forgotten craft of an embedded programmer has been resurrected by IoT.the code that runs in wearables or sensors — it's all embedded and runs without a true operating system in some circumstances.Design, development, and debugging are significantly different from the programming at the cloud or mobility or level of application. Hardware Development, Design, And Manufacturing Hardware is not a big part of the full-stack but it is a vital stack of the IoT. the hardware interface is important in developing IoT. Full Stack IoT firms own or control important hardware parts that their solution requires. This means that Full Stack IoT needs know-how about design and hardware development. Full-stack IoT developmententerprises need manufacturing and supply chain competence and know-how. IoT technology stack hardware compresses both the sensor and the gateway. Application-Level And Middleware Programming IoT Gateway, Cloud, and distributed middleware programming to align all elements together. Cloud Development And Operations All IoT applications require a cloud component and cloud infrastructure. a cloud-based IoT middleware section, and the IoT feature application. Smartphone And Tablet Apps You will require apps for both IoT application management and the use of application experience. Analytics Mining And Business Intelligence The organization effectively delivers its solutions with basic analytics and may be integrated into other advanced analytical goods and solutions.Full Stack IoT companies can use other companies' analytical solutions but will retain data control. Integration With ITAnd Other Mining Systems The Internet- of -things provides contextual value.Your IoT app may also need to link with other services to improve your service, for instance, if you offer an application that monitors/manages to air-condition that you need to interface with an online reporting service (HVACs). Security Safety awareness is necessary, as each layer has its own weaknesses, to avoid damage. Security is a must for IoT stack. It is crucial in IoT to enable encryption and decryption technology during data transmission.For the security of IoT systems, device authentication and permission is also vital.In addition to this preventing and addressing any threats to the IoT system, IoT developers need to protect the privacy of their data. User Interface And User Experience To understand what consumers will experience and enjoy through your application or website, knowledge of both UI and UX is necessary.For instance, it is essential for a team that monitors and oversees the performance of such devices to construct a Web portal for the remote monitoring of millions of devices on a single interface. Understanding Process Automation A key aspect in full-scale stack development is knowledge of recurring, automated procedures for the development, testing, documentation, and implementation of the application. DevOps (Software Development & IT operation), BVT (Build-Verification-Test), and microservices can decrease the release time cycle for full-stack developers. SKILLS REQUIRED FOR FULL-STACK IOT DEVELOPER IoT Full Stack Developers must have combined skills in IoT development with its know-how from the frontend- HTML, CSS, JavaScript, and backend- Python, Java, PHP. Including firmware systems, network protocols, and sensors. This comprises essentially of a whole stack developing IoT integration through IoT networks by linking items.The Full-Stack Developer knows the formulas and order for collecting and analyzing data in this capacity. From IoT to data presentation via maps and schemes.The IoT Full Stack Developer converts ordinary IoT sensors and microcontrollers into remarkable, through linking items to the Internet without interposing humans and machine interaction. · C/C++ programming in built-in devices · Development in API REST and SOAP · Python programming · WEB Development · Git & GitHub · Knowledge in IoT and server management systems (MQTT and other protocols) · AWS development · Basics of CSS pre-processing platforms, such as LESS and SASS. · Version control system (VCS) · Front-End Technologies&Backend Language · Basic Designing skills
How to find the Finest Mobile Application Development Company in Bangalore?
The West holds a small talent pool with extremely high service charges. Moreover, the latest talent implementation leads to a budget that organizations usually cannot afford. Hence, Western countries try to offshore their products from Asia countries, especially from Bangalore. Bangalore as the Silicon Valley of India is rich in resources, especially mobile app developers in Bangalore. Mobile app developers in Bangalore lend their experience and services at extremely reasonable rates, as less as $15 to $30 an hour. According to a BCG report, 25% of SMBs who have proven themselves as mobile leaders have experienced a double financial performance and eight times hike in optimized job addition compared to their competitors. However, Forbes further states that organizations must ensure that their mobile apps are not deleted due to app fatigue. Hence, it is wise to seek the help of any agency that has great experience in mobile app development. Bangalore itself holds 1 million developers in its areas who outsource 40% of India’s outsourcing profits. Apart from the wide talent pool availability, app development companies in Bangalore also hold the latest technology stack. Hence for an advanced experience, organizations usually opt for mobile app development in Bangalore. However, outsourcing mobile app development in Bangalore offers other benefits to organizations too. We have discussed those in the following section. Finding a mobile app development company in Bangalore that meets your business needs amongst hundreds and thousands of them is quite difficult. However, you can find out the best mobile app development company in Bangalore that suits your needs by analyzing them first. So how can you find out your requirements? How to find the Finest Mobile Application Development Company in Bangalore? To find the right mobile app development company in Bangalore that meets your end-to-end internal and external organizational needs you must check to shortlist several firms based on the following criteria. Only select those who meet your satisfaction criteria. 1. Market condition and reputation 2. Check out their clients’ reviews and ratings 3. Developers’ expertise, knowledge, and skill-set 4. Development practices and strategies 5. Tracking channels for both development and communication 6. Security and privacy regulations adherence 7. Hourly rates, NDAs, and payment timelines There are so many best and experienced android app development company in bangalore along with a trending technology stack at extremely reasonable rates.
COVID-19 Impact on Healthcare Robots in the Healthcare Industry
COVID-19 Impact on Healthcare Robots in the Healthcare Industry As the deaths from the COVID-19 pandemic start to increase, the World Health Organization (WHO) has urged citizens to maintain specific social distances. In an attempt to avoid the spread of COVID-19 at the population level, medical robots or healthcare robots are gradually involved in the roles of sanitizing patients' quarters, distributing medications, and supplying meals to ill people. Supplying supplies to households and delivering effective services to injured patients remained a major obstacle, and this is where healthcare robotics is creating a space for them. The new pandemic is growing in demand for healthcare robots as they play a crucial role in the process of drug distribution, patient evaluation, and medical workers' infection control. COVID-19 Market Effect The 2002-2004 SARS pandemic has indelibly altered the business climate for healthcare robots. Nearly 8,000 people were affected and 700 were killed. In addition, MERS affected 200 and killed about 40 of them. They were all limited to different territories. COVID-19, on the other hand, as a pandemic, has had a larger influence on the global economy. The SARS and MERS outbreaks contributed to a new era of creativity with the advent of disinfection robots that produce UVD light to combat against infectious viruses and bacteria on hospital surfaces. If COVID-19 continued to grow globally, UVD robots makers would expand significantly, and if the pandemic was bought under control, healthcare robots would be developed exponentially to decrease the risk of infective infection in hospitals. The healthcare robots market was expected to hit with a significant growth rate in 2020-2021. Owing to production reductions and supply distresses, the healthcare robotics demand was minimally affected in 2020. That would contribute to a decline of BPS 180. But the sector is now starting to see blue sky as the main development region such as China is beating the recession and moving up. Succeeding in the Wake of the Emergency Healthcare robots can play a critical role in the current pandemic by reducing human involvement and shielding health staff from infection. This will involve measuring patients' temperatures, disinfecting equipment, measuring specimen swabs and delivering much-needed psychological assistance to patients in isolation. Researchers are now beginning to illustrate the cyclical aspect of technology right after the recession. The COVID-19 contraction would accelerate labor-replacement automation as business sales see a fall. This might have arrived during the 'cultural shock' as automation eliminates low-skilled jobs. The prospects for healthcare robotics exist in the introduction of smart navigation and the detection of high-risk and highly contaminated environments. Wireless networking systems in healthcare can include drones, telemedicine, and decontamination with AIdriven capabilities. Healthcare robotics should see early acceptance in regions first hit by the infection, offering them an advantage. The companies in China are now doubling their revenue production from the previous years. By the time the pandemic is done, robotics should be distributed through a variety of facilities and programs. The manufacturing will experience reshoring, with decreased reliance on countries such as China, and one way to do so would be by robots that would support the robotics industry. Disinfection Robots UVD Robots, a Danish corporation located in the University of Odense and Blue Ocean Robotics, is a leading manufacturer of disinfectant robots for China in the fight against the spread of the virus. The firm signed a deal with Sunay Healthcare Supplier in February and has since delivered dozens of its self-driving robots to clean hospitals and other places with ultraviolet light. The firm claimed that this reduces the transmission of coronaviruses without exposing medical workers to the possibility of infection. Since then, the firm has marketed robots to locations in more than 50 organizations, extending its services outside China to places in Europe and the United States that are facing epidemic issues. UVD Robots frequently accepts inquiries from outside the hospital and medical institutions, including prison, offices, production floors, department shops, malls, airports, hotels, and restaurants. Dimer, located in Los Angeles, provides its GermFalcon UV-C robotics equipped to clean aircraft and its UVHammer robotic systems for hospitals and complex settings. In mid-January, the organization provided its services to the first three major U.S. airports where Chinese arrivals took place. Xenex confirmed that its LightStriken germ zapping robots became the first hotel in the U.S. to sanitize or clean guest rooms and communal areas at the Westin Houston Medical Center. The technique developed by two epidemiologists in Houston will easily kill pathogens, bacteria and fungi by utilizing strong pulsed xenon ultraviolet radiation. The MTR Company, which runs the Hong Kong subway, has confirmed that it is partnering with Avalon Biomedical (Management) Limited to build the VHP Robot, which stands for the vaporized hydrogen peroxide system. The robot conducts deep cleaning and decontamination in train compartments and stations to secure passengers and workers. More than 30 disinfection robots developed and manufactured by TMiRob, a company in Shanghai, have joined major hospitals in Wuhan, the hub of the novel coronavirus outbreak, to counter the epidemic. The white robot deployed by the firm has a hydrogen peroxide sprayer on its "front" and nine ultraviolet lamps in its "belly" and can conduct various types of disinfection in areas where humans and machines coexist, navigation hardware allows the system to clear hazards independently. Beijing-based robotics firm CloudMinds sent 14 robots to Wuhan, China, to assist with medical treatment in the wake of the coronavirus pandemic. Robots, some of which are more humanoid than others, can scrub and disinfect, distribute medications to patients and check the temperature of patients. CloudMinds contributed robotics to a number of medical institutions in China, including the Wuhan Wuchang Smart Field Clinic, which was converted from the Hong Shan Sports Centre. An Israeli-made AI robotic assistant is being used in hundreds of clinics, community centres, nursing homes and industrial buildings in Asia to eliminate human-to-human interaction as millions of people take precautions for a current coronavirus epidemic worldwide. Israeli company Robotemi, a creator of the Temi robot assistant, claims the device has already been sold to hundreds of locations throughout South East Asia, including China, Japan, South Korea, and Hong Kong. Healthcare Assistance Twelve sets of robots were provided into an intelligent hospital in Wuhan, China by CloudMinds, a supplier to A3, to support the health workers overstressed and threatened. The robots carried out many important tasks including flagging patients who had a temperature, pulse rate, and blood oxygen rates and medicine at the entrance to the field hospital. Such robots have also cleaned and disinfected the hospital areas and performed fitness exercises for patients with the disease. In addition, Chinese researchers modeled the arm of a robot on wheels that can ultrasound, swab in the mouth, and hear the noises produced by a patient's organ normally with a stethoscope. The robot will conduct these activities with cameras in the same space without having to provide medical staff. Professor Zheng Gangtie from the University of Tsinghua developed the device. Unmanned Vehicles Unmanned vehicles and other autonomous robots are deployed in China's virus-affected regions. For instance, Beijing JD Logistics has sent two unmanned L4 class vehicles to Wuhan, and engineers have driven the vehicles remotely through the cloud. Another firm, Idriverplus, has donated an unmanned transportation vehicle to Shanghai and Beijing hospitals. Amazon revealed that it will recruit 100,000 workers to deliver products in vacant warehouses to purchase during the epidemic. The area of e-commerce is now growing with the usage of robots to fill orders and this increase is projected to accelerate as more customers shop digitally, while they remain home more. Teleworking Robots The use of video and audio conference software as companies including Zoom, Microsoft (Skype) and others providing interactive meetings services has expanded with millions of citizens still operating at home because of the state and nation lockdowns. However, businesses of telepresence robotics do have greater interest of their apps, but not for the same purposes. As a consequence of the latest epidemic of coronaviruses, Ava Robotics is building handheld telepresence robots for many years. According to the CEO and cofounder of the firm, the increasing number of hospitals and nursing homes are interested in the robots, which enable the family to talk to patient and older residents on video as a consequence of the policy of 'no visits' and lock-outs in these places. Owing to the need to be simple to use on one end of the line-an aged or ill user in this situation, Ava robots are distinct from the machine enabled video-conferencing device used on a phone or a computer. The company works to make it simple for robotics setup people to click on a connection and talk to the telepresence robot instantaneously. In parallel to the robot's operation, hospitals have utilized Ava robotics, primarily for triaging through the coronavirus. For starters, the robot is configured to remotely test patients with Ava robotics after the initial appointment in one of Boston's largest hospitals. It's also the machines that patients use to reach and depart a position often-rather than people, the system will do it to save the medical equipment because a person has to wear a face mask, shoes and gloves every time instead of human operation. Initially, Czartoski, a practicing neurologist, was utilizing telemedicine in the care of stroke survivors, one of the strongest early lead for telemedicine. According to him, "If I encounter anyone with stroke signs, I will test them with a camera relatively easily to inform them if there is left side fatigue to speech problems, then I will look at the CT scan and the results then make a recommendation for the ER specialist." Virtual visits are growing in the providence. The non-profit health care network conducted nearly 100,000 virtual appointments in 2019. In 2012, the providence carried out a few hundred telemedical visits a year and was rising at a fast pace — from 12,000 in 2016 to 41,000 in 2018 to more than 100,000 last year. That figure does not explicitly reflect the usage of telemedicine in the ICU. Pharmaceutical Assistance Pharmaceutical firms tend to work on viral vaccinations or therapies and automation businesses have developed electronic tools to further simplify manual and replicate processes over the years. The robotics firms also provide options for businesses seeking to combat the COVID-19 virus. The two new modular, ready-for-assay workstations, focused on the Microlab STARlet liquid handling system, were announced recently by Hamilton Group. The latest technologies will help render the SARS-CoV-2 coronavirus that triggers the current COVID-19 quick and highly effective diagnostics, and research-based testing, said the firm. The MagEx STARlet allows the extraction of biological samples from high-performance RNA-based magnetic beads, the PCR Prep STARlet workstation is pre-configured and eligible for sample deployment utilizing recent protocols from the centers. Furthermore, the robotics designed by businesses is actually being employed in the war against coronavirus. ABB robots can be seen in this ABC news story to help a medical laboratory with the development of COVID-19 research kits. Healthcare Robots Market Synopsis The new pandemic will be targeted by health-care device vendors. They will be aligned on developing, unregulated markets with tech firms, stressing the value for national emergencies of healthcare robots. Many industries such as Enterprise Resource Planning (ERP) for higher profit margins are often impacted, in combination with robotics. Medical personnel's are predicted to become a potential phenomenon in patient events, raising the incidence of disease infections. According to the International Federation of Robotics (IFR), the shipments of medical robots already have increased by 50% in 2018. The outcome of coronavirus, however, illustrates some of the essential situations in which robotic systems may be disinfected, tracked, controlled and supplied. The World Robotics study shows that Europe is the most robot-densely inhabited region in the world with an estimated size of 114 units per 10,000 employees. In Edinberg in the United Kingdom, robotic engineers are operating on what they believe is the first safety device to speak to more than one human concurrently. The initiative was planned to support disabled citizens. Scientists say that the discovery will aim to counter potential waves of diseases such as the pandemic. Throughout the United States, the COVID-19 patients are housed at the Providence Community Medical Center throughout Washington in remote locations with two rooms. A robot, which has a microphone, a stethoscope and a camera, is being used by physicians. It helps doctors to interact individually with patients without touching. Disinfection UVD robots in China has been widely searched after as a consequence of the outbreak. The robot built by Denmark's blue ocean robot is ordered by a significant number of hospitals in the world. In the epidemic epicenter of the Wuhan outbreak, these robots played an important part. As time passes, robotics plays a significant role in fighting diseases such as COVID-19, similar to other technologies. Robot technologies will play a significant role not just in aiding patients but also in maintaining the wellbeing of physicians and healthcare staff in the case of an epidemic. The crises are changing views on what is feasible in terms of innovation and strategic intervention on the part of both private and policy players. When the COVID-19 pandemic is finished, the variety of technologies and industries are built into robotics. The virus was a successful chance for businesses to show robotics for public applications. One of the most common is the installation of mobile unmanned ultraviolet (UV) light platforms to disinfect facilities. Danish business UVD Robotics is taking advantage of this potential and is increasing the application of robotics to clean hospitals. The U.S. based Germ Falcon provides identical UV disinfection approaches for airplanes, while Chinese TMiRob deploys UV disinfection robots in Wuhan. "Automation of disinfection is a vital aspect of preserving health and safety and maybe one of the big bright points in reaction to COVID-19. In the near term, the policymakers would need to improve their defense apparatuses as well as the effectiveness of their medical services in order to implement quarantine mandates. The robots should be crucial to doing this by disinfection, tracking and surveillance. Throughout the long run, COVID-19 is contributing to a major reassessment of the worldwide supply chain in production. America's reliance on Chinese imports of essential machinery and drugs is becoming a controversial problem, and policy officials are now seeing the crisis as an incentive to revitalize the drive to re-launch more manufacturing resources on the domestic sector. Whether that turns into more drastic intervention by policymakers to diversify or re-land the output of key products, it may very well bode for the robotics sector, because these reforms will entail substantial rises in CAPEX and efficiency gains in developing countries. Instead of the infectivity of COVID-19, it is better if human-to-human interaction is minimal. Since robots are free for contamination, software companies such as JD.com and others have invested to get more robots marching down the main street to provide medical equipment in healthcare settings. The robots often end up becoming critical when providing vital items to individuals who order and purchase digitally and are lonely at home. Meituan Dianping, a logistics platform, is growing the 'contactless shipping' choices by automated vehicles and robots. Shenzhen-based company Pudu Technology aimed to reduce cross-infection by introducing a robotic home distribution of medications and food. COVID-19 poses a nightmare for robotic manufacturers designing applications for emerging economies in the automotive, construction and supply chain industries. But for vendors targeting markets which that are closer to government, such as safety, education, and protection, this is a great opportunity. Whitton advises that 'the market players create tailored solutions for non-manufacturing use cases or aim to create integrated solutions to allow scale-up in the manufacture of medical supplies. To mobile robotics manufacturers and tech firms pursuing more global markets, this is a perfect chance to demonstrate the role of healthcare robotics in solving national crises as well as alleviating economic shock.