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Wireless Security Market in LTE Networks 2013-2018NEW YORK, Jan. 8, 2013 /PRNewswire via COMTEX/ -- Reportlinker.com announces that a new market research report is available in its catalogue: Wireless Security Market in LTE Networks 2013-2018 http://www.reportlinker.com/p01080584/Wireless-Security-Market-in-LTE-Networks-2013-2018.html#utm_source=prnewswire&utm_medium=pr&utm_campaign=Security_Systems Overview: With the rapid expansion of broadband wireless, end-users increasingly rely upon handheld devices for almost all daily living activities. Fourth generation (4G) cellular LTE in particular represents a unique opportunity/challenge as device attacks are growing at a rapid rate, exposing vulnerabilities that must be addressed. Our research indicates that Android malware in particular will grow rapidly and will be considered most vulnerable OS for LTE. This research is most reading for anyone involved in LTE network planning, device procurement, and/or application development and management. This report includes extensive LTE Security Market forecasting for the period 2013 - 2018. The report complements Mind Commerce research in LTE device, subscriptions, and application market analysis as well as security threats for specific applications such as mobile games. Companies in Report: Apple, Samsung Asus, Motorola, Kaspersky, AVG, McAffee, F-secure, Trojon, Verizon Wireless ,NTT DocoMo, AT & T Mobility USA ,Metro PCS ,Vodafone D2 EMOBILE NTT DOCOMO SoftBank Mobile,KDDIVodafone,3(Hutchison),O2(Telefonica)Everything Everywhere, Zain,Nawras, Omantel, Mobily, Saudi Telecom Company (STC),Zain, du Etisalat, Movicel, Orange Mauritius, MTC Namibia, Vodacom, China Mobile Hong Kong,CSL, PCCW, Smartone, Aircel, Airtel, Augere, Qualcomm, Tikona, Megafon, MTS, Yota Target Audience: LTE device manufacturers Mobile network operators LTE infrastructure providers Cellular application developers Managed communications providers Table of Contents: 1.0 EXECUTIVE SUMMARY 8 2.0 INTRODUCTION 9 3.0 WIRELESS SECURITY IN LTE 10 3.1 WHY WIRELESS SECURITY IS DIFFERENT IN LTE 10 3.2 LTE AND MOBILE WIMAX TECHNICAL COMPARISON 11 3.3 WIRELESS SECURITY VULNERABILITY : A BURNING ISSUE FOR MOBILE DEVICES 11 3.3.1 CORRELATED RISK IN LTE: 12 3.4 SMARTPHONE & TABLET DEVICE: NEW CHOICE OF ATTACKER 12 3.4.1 ANDROID MALWARE SAMPLES: 12 3.5 3GPP/LTE SECURITY STANDARDIZATION SPECIFICATIONS: 3GPP NDS 14 3.6 DNS IN WIRELESS SECURITY 15 4.0 MOBILE SECURITY IN IP ENVIRONMENT: LTE PATTERN 164.1 TRENDS OF MOBILE SECURITY THREATS 164.1.1 WIRELESS MOBILE DEVICE ADVANCEMENT 164.1.2 INCREASING NUMBER OF MALICIOUS APPLICATION 164.1.3 ANDROID'S POPULARITY 164.1.4 ADAPTION OF MOBILE DEVICE IN CORPORATE AREA 164.1.5 LACK OF AWARENESS AMONG SUBSCRIBER 164.2 RAN & BACKHAUL AS MEANS FOR STRONGER SECURITY 174.3 CORE NETWORK THREATS 184.4 DIAMETER SIGNALLING DERIVED THREAT: 194.5 THIRD PARTY SOURCED THREAT 204.5.1 ROAMING PARTNERS: 204.5.2 MVNO 214.5.3 INFRASTRUCTURE 214.5.4 ENTERPRISE NETWORK 224.6 IWLAN SECURITY 224.7 SMALL CELL SECURITY 224.8 RCS (RICH COMMUNICATION SERVICES) SECURITY 23FIGURE 10: RCS (RICH COMMUNICATION SERVICES) SECURITY ARCHITECTURE (COPYRIGHT: RADISYS) 23 5.0 WIRELESS SECURITY ANALYSIS ON LTE PATTERN 24 5.1 ANALYSIS OF WIRELESS LTE THREAT: 24 5.1.1 LTE APPLICATION USER FORECASTING 2013-2018* 24 5.1.2 CONSUMER AWARENESS OVER WIRELESS SECURITY 2013 - 2018 25 5.1.3 WORLDWIDE WIRELESS ANTIVIRUS USER 2013-2018* 25 5.2 OUTLOOK OF WIRELESS LTE THREAT: 26 6.0 WIRELESS SECURITY THREATS GATEWAY ON MOBILE DEVICE: LTE PATTERN 276.1 WIRELESS LTE CYBER THREAT LANDSCAPE: 276.2 WEB SECURITY THREAT 286.3 CATEGORY POSED THREAT 286.4 PLATFORM POSED THREAT 296.5 ANALYSIS OF ALL TYPES OF LTE THREAT 29 7.0 GRAPHICAL PRESENTATION OF WIRELESS SECURITY INCIDENT 30 7.1 WIRELESS INCIDENT BY THROUGH SOURCES 30 7.1.1 VOIP 30 7.1.2 MMS 30 7.1.3 MOBILE GAMING 31 7.1.4 MOBILE PAYMENT 31 7.1.5 MOBILE APPLICATION 32 7.2 REGION WISE LTE THREAT 32 7.2.1 VOIP THREAT 32 7.2.2 MMS THREAT: 33 7.2.3 GAMING THREAT: 33 7.2.4 MOBILE PAYMENT THREAT: 34 7.2.5 APPLICATION DOWNLOAD THREAT 34 8.0 LTE TAKING THE PLACE OF 3G 358.1 WORLDWIDE LTE USER ANALYSIS 358.1.1 LTE USER EXPANSION GLOBALLY 358.1.2 LTE USER REGION WISE: 368.2 WIRELESS SECURITY INCIDENT BY SOURCE 368.3 WORLDWIDE MOBILE ANTIVIRUS USER 378.4 UPSHOT ON LTE USERS AND ITS FUTURE 37 9.0 WIRELESS SECURITY MEASURE DEPLOYMENT 38 9.1 COUNTRY WISE LTE SECURITY AWARENESS (2013-2018) 38 9.1.1 USA 38 9.1.2 UK 39 9.1.3 SOUTH KOREA 39 9.1.4 AFRICA 40 9.1.5 AUSTRALIA 40 9.1.6 BRAZIL 41 9.1.7 CANADA 41 9.1.8 BELGIUM 42 9.1.9 FRANCE 42 9.1.10 GERMANY 43 9.1.11 RUSSIA 43 9.1.12 MIDDLE EAST 44 9.1.13 JAPAN 44 9.1.14 CHINA 45 9.1.15 INDIA 45 9.2 COUNTRY WISE LTE NETWORK (WITH PRIVACY & SECURITY) PROVIDER MARKET SHARE 46 9.2.1 USA 46 9.2.2 UK 46 9.2.3 AFRICA 47 9.2.4 MIDDLE EAST 47 9.2.5 SOUTH KOREA 48 9.2.6 JAPAN 48 9.2.7 RUSSIA 49 9.2.8 BELGIUM 49 9.2.9 GERMANY 50 9.2.10 AUSTRALIA 50 9.2.11 HONGKONG 51 9.2.12 CHINA 51 9.2.13 INDIA 52 10.0 WIRELESS SECURITY VENDOR COMPANY ANALYSIS 5310.1 WORLDWIDE SECURITY VENDOR ANALYSIS 53 11.0 DISTINCTIVE INITIATIVE TO PREVENT WIRELESS INCIDENT 54 11.1 UNIQUE MOBILE SECURITY BY BRITISH FIRM 54 11.2 WIRELESS LTE THREAT IDENTIFICATION THROUGH PREVENTION APPLICATION 55 12.0 WIRELESS SECURITY MARKET PROJECTION 2013 - 2018 5612.1 REGION WISE % OF LTE DEPLOYMENT 2013 56FIGURE 63: REGION WISE % OF LTE DEPLOYMENT 2013 5612.2 VULNERABILITY %: SMARTPHONE VS. TABLET DEVICE 2013-2018 5612.3 REGION WISE MARKET VALUE PROJECTION 57FIGURE 65: REGION WISE SECURE LTE SUBSCRIBERS (IN MILLION) 2013-2018* 5712.4 WIRELESS SECURITY COMPANY MARKET SHARE 2013 5712.5 LTE INFRASTRUCTURE COMMERCIAL BY VENDORS 5812.6 LTE SUPPORTING TABLET & SMARTPHONE MANUFACTURERS 58FIGURE 68: LTE SUPPORTING TABLET & SMARTPHONE MANUFACTURERS 58 13.0 CASE ANALYSIS 59 13.1 THANKS GIVING: BIG DAY FOR HACKERS 59 13.1.1 INTRODUCTION: HACKERS TARGETING SHOPPERS' SMARTPHONES 59 13.1.2 HOW THE SMARTPHONE ATTACKED 59 13.1.3 RESEARCHERS OPINION AND CONCLUSION 60 13.2 WIRELESS THREAT IN CORPORATE ENVIRONMENT 60 13.2.1 INTRODUCTION 60 13.2.2 ATTACK IN CORPORATE ENVIRONMENT: 61 13.3 ONE SIMPLE TRICK COULD DISABLE A CITY'S LTE NETWORK 62 13.3.1 INTRODUCTION 62 13.3.2 FEMTOCELL IS A CONTRIBUTOR IN LTE ATTACK 62 13.4 HIGH SPEED LTE IS A SOURCE OF ATTACK FOR TERRORIST 62 13.4.1 INTRODUCTION 62 13.4.2 RESEARCHERS QUOTE ON "LTE AS A SOURCE OF TERRORIST ATTACK" 63 13.5 CYBERCRIMINAL'S NETWORK ON MOBILE PAYMENT 63 13.5.1 INTRODUCTION 63 13.6 MOBILE APPLICATION DOWNLOAD FOUNDATION OF VIRUS DOWNLOAD 65 13.6.1 INTRODUCTION 65 13.6.2 HOW THE VIRUS DOWNLOAD BY APPLICATION DOWNLOAD 65 13.7 MOBILE WIFI HACKING 66 13.8 GAME APPLICATION HACKED SMARTPHONE & TABLET 66 14.0 CONCLUSION & RECOMMENDATION 6714.1 CONCLUSION 6714.2 UPCOMING TOP 10 WIRELESS LTE SECURITY ISSUES IN 2013 6714.2.1 TARGETED ATTACKS 6714.2.2 MORE HACTIVISM 6814.2.3 CYBER ESPIONAGE & WARFARE 6814.2.4 BIG BROTHER WATCHING EVEN MORE 6814.2.5 INCREASE IN MALWARE 6814.2.6 PRIVACY RIGHTS ERODING 6914.2.7 CYBER EXTORTION 6914.2.8 APPLE UNDER ATTACK 6914.2.9 ANDROID, EVEN WORSE 6914.2.10 UN-PATCHED EXPLOITS IN JAVA 7014.3 RECOMMENDATION 7014.3.1 PROTECTING CORPORATE NETWORK 7014.4 RECOMMENDATION FOR MOBILE APPLICATION DEVELOPERS: 7314.5 IOS: RECOMMENDED SETTINGS FOR WI-FI ROUTERS AND ACCESS POINTS 7314.6 RECOMMENDED SECURITY FOR MOBILE PAYMENT 7414.6.1 DETECTING IF CARDHOLDER DATA IS BEING SKIMMED 7414.6.2 IDENTIFYING AND PROTECTING WLAN FROM UNAUTHORIZED DEVICES 7414.7 IP NETWORK SECURITY MEASURES: 74 Graphs Figure 1:System Architecture of Wireless LTE 9 Figure 2: LTE and GPRS networks - Comparison between Equivalent Functionalities 10 Figure 3:Android Malware Samples 13 Figure 4: Model of NDS Figure 5:Ran & Black-haul in LTE 17 Figure 6:Diameter Signaling Threat Structure 20 Figure 7:Structure of LTE roaming 21 Figure 8: IWLAN Security Architecture 22 Figure 9: Small Cell Security Architecture 23 Figure 10: Rich Communication Services (RCS) Security Architecture 23 Figure 11: LTE application usage rate 2013-2018 24 Figure 12: Consumer Awareness over Wireless Security 2013 - 2018 25 Figure 13: Worldwide Wireless Antivirus User 25 Figure 14: Wireless Security Landscape 27 Figure 15: LTE Web Security Threats 28 Figure 16: Category Posed Threats 28 Figure 17: Platform Posed LTE Threats 29 Figure 18: Worldwide VOIP Incidents 2013-2018 30 Figure 19: Worldwide MMS Incidents 2013-2018 30 Figure 20: Worldwide Mobile Gaming Incidents 2013-2018 31 Figure 21: Worldwide Mobile Payment Incidents 2013-2018 31 Figure 22: Worldwide Mobile Application Download Incident 2013-2018 32 Figure 23: Region-based VOIP incident 32 Figure 24: Region wise MMS incident 33 Figure 25: Region0based Mobile Gaming incident 33 Figure 26: Region-based Mobile Payment incident 34 Figure 27: Region-based Application Download Incident 34 Figure 28: LTE Global User Expansion 35 Figure 29:LTE Deployment Regionally 36 Figure 30: Wireless Security Incident by Source 2013-2018 37 Figure 31: Worldwide Mobile Antivirus Users by Region 2013-2018 37 Figure 32: USA:LTE Incident Awareness (2013-2018) 38 Figure 33: UK: LTE Incident Awareness (2013-2018) 39 Figure 34: South Korea: LTE Incident Awareness (2013-2018) 39 Figure 35: Africa: LTE Incident Awareness (2013-2018) 40 Figure 36: Australia: LTE Incident Awareness (2013-2018) 40 Figure 37: Brazil: LTE Incident Awareness (2013-2018) 41 Figure 38: Canada: LTE Incident Awareness (2013-2018) 41 Figure 39: Belgium: LTE Incident Awareness (2013-2018) 42 Figure 40: France: LTE Incident Awareness (2013-2018) 43 Figure 41: Germany: LTE Incident Awareness (2013-2018) 43 Figure 42: Russia: LTE Incident Awareness (2013-2018) 43 Figure 43: Middle East: Incident Awareness (2013-2018) 44 Figure 44: Japan: LTE Incident Awareness (2013-2018) 44 Figure 45: China: LTE Incident Awareness (2013-2018) 45 Figure 46: India: LTE Incident Awareness (2013-2018) 45 Figure 47: USA: LTE Service Providers 46 Figure 48: UK: LTE Service Providers 46 Figure 49: Africa: LTE Service Providers 47 Figure 50: Middle East: LTE Service Providers 47 Figure 51: South Korea: LTE Service Providers 48 Figure 52: Japan: LTE Service Providers 48 Figure 53: Russia: LTE Service Providers 49 Figure 54: Belgium: LTE Service Providers 49 Figure 55: Germany: LTE Service Providers 50 Figure 56: Australia: LTE Service Providers 50 Figure 57: Hong Kong: LTE Service Providers 51 Figure 58: China: LTE Service Providers 51 Figure 59: India :LTE Service Providers 52 Figure 60: Wireless Security Antivirus Global Market Share 2013-2018 53 Figure 61:Tie Mobile Security Model 54 Figure 62:LTE Threat Identification Application 55 Figure 63: Region-based % of LTE Deployment 2013 56 Figure 64: Vulnerability % Smartphone vs. Tablet Devices 2013-2018 56 Figure 65: Region-based Secure LTE Subscribers 2013-2018 57 Figure 66: Global Security Vendor Company Market share 2013 57 Figure 67: LTE Infrastructure Commercial by Vendors 2013-2018 58 Figure 68: LTE Supporting Tablet & Smartphone Manufacturers 58 Figure 69: Attacker Targeting Smartphones & Tablets 59 Figure 70:Wireless Threat in Corporate Environment 61 Figure 71:Mobile Payment Attack 64 Figure 72: Virus Spread through Application Downloads 65 Figure 73:Game Application on Smartphones 66 Tables Table 1:Types of Wireless Attack 19To order this report:Security_Systems Industry: Wireless Security Market in LTE Networks 2013-2018 ContactNicolas BombourgReportlinkerEmail: [email protected]: (805)652-2626Intl: +1 805-652-2626 SOURCE Reportlinker [ Back To TMCnet.com's Homepage ] |