El documento describe las tendencias en la seguridad móvil a través de los años y discute el futuro de la Internet de las Cosas. Resume las principales tecnologías móviles como 1G, 2G, 3G y 4G y destaca el crecimiento exponencial de dispositivos conectados y la generación de grandes cantidades de datos. También enfatiza los desafíos de complejidad, privacidad y análisis de grandes datos que plantea el IoT y presenta la plataforma Project Ion de BlackBerry como una solución integral para la seg
5. Voz
La historia comienza en 1973, cuando Motorola hace la primer
llamada entre celulares.
1G: Primer lanzamiento comercial en Japan en 1979.
Analogico
Comienzo
1970 1991 2000 2008 2014 2016
7. Voz
Start
2G: En 1991 el lanzamiento del primer sistema GSM.
Ese mismo ano se manda el primer SMS (mensaje de texto).
Digital
Texto
1970 1991 2000 2008 2014 2016
13. Voice
Start
En 2006 Facebook, Twitter, Flicker se hacen populares.
Los planes de datos se hacen mas economicos.
Liderado por BBM la mensajeria instantanea se hace popular.
Social Media
Text
Data SmartPhones Consumidor
1970 1991 2000 2008 2014 2016
15. Voice
Start
1970 1991 2000 2008 2014 2016
Text
Data SmartPhones
Cloud
4G: Velocidades mas altas de datos
SmartPhones Los dispositivos generan gran cantidad de datos
Contextual Data
SmartPhones
18. Cual es el futuro de los Moviles?
Mas dispositivos conectados
Salud
E-commerce
Bancos/Finanzas
19. El mundo se mueve a “X-veces”
10 veces de dispositivos conectados
100 veces las aplicaciones que usan datos – consumidor/empresa
1,000 veces la cantidad de datos
10,000 veces las oportunidades de colaboracion
Cual es el futuro de los
Moviles?
22. Seguridad es la base de lo que hacemos en BlackBerry!
• Ningun fabricante en el mercado puede alcanzar los niveles de seguridad
• Hardware y OS seguro
• BES / Workspace seguro (datos personales vs. trabajo)
• Infrastructure Seguro
• Microkernel Seguro (QNX)
Seguridad PLUS+
23. Seguridad PLUS+
Seguridad es la base de lo que hacemos en BlackBerry!
• Hardware y OS seguro
• BES / Workspace seguro (datos personales vs. trabajo)
• Infrastructure Seguro
• Microkernel Seguro (QNX)
24. Seguridad PLUS+
Seguridad es la base de lo que hacemos en BlackBerry!
• Hardware y OS seguro
• BES / Workspace seguro
• Infrastructure Seguro
• Microkernel Seguro (QNX)
25.
26. Seguridad PLUS+
Seguridad es la base de lo que hacemos en BlackBerry!
• Hardware y OS seguro
• BES / Workspace seguro
• Infrastructure Segura
• Microkernel Seguro (QNX)
27.
28. SECURITY PLUS+
Seguridad es la base de lo que hacemos en BlackBerry!
• Hardware y OS seguro
• BES / Workspace seguro
• Infrastructure Seguro
• Microkernel Seguro (QNX)
29. Seguridad PLUS+
Seguridad es la base de lo que hacemos en BlackBerry!
• Hardware y OS seguro
• BES / Workspace seguro
• Infrastructure Segura
• Microkernel Seguro (QNX)
• BlackBerry Protect
31. Dispositivos para Negocios
Empresas continuan
inviertiendo en
dispositivos
corporativos
83.9M
Dispositivos corporativos
Se venderan en
2016
Creciendo de 61.4M
en 2013
IDC - Worldwide Business Use Smartphone
2013–2017 Forecast Update
“BlackBerry comes closest to offering a product to support COPE, BYOD & CYOD.
Other container products do not support such a model.”
Gartner, Protecting Enterprise Information on Mobile Devices, Using Managed Information Containers, 2014
33. I am not allowed, for security reasons,
to have an iPhone
President Barack Obama
Full Operational Capability
on U.S. Department of
Defense Networks
We move more secure mobile data
through our infrastructure than any
other EMM vendor
35PBper month
45
security certificates. More
than any other mobile vendor
FIPS 140-2 AES-256 Dedicated
Security Team
Alta Seguridad
“
”
Las solciones de
BlackBerry no
necesitan VPN
Gartner, MDM Magic Quadrant, 2013
“
”
34. • Gobierno
• Defensa
• Salud
• Servicios Financieros
• Manufactura
• Servicios Profesionales
• Energia
Top 5
largest oil & gas
companies
BlackBerry has more
global EMM customers
than the competition
combined
MobileIron
Good
AirWatch
Profesionales en las organizacoines mas grandes confian en
BlackBerry
Confiable en las industrias mas importantes
Top10
largest global law
firms
Top10
largest automotive
companies
Top10
largest pharmaceutical/
healthcare companies
All 7
G7
governments
16 of the
G20
governments
35. Smartphones BlackBerry para todo el mundo.
La maxima seguridad se obtiene en dispositivos BlackBerry
Premium
Standard
Business Fit
• Most popular and demanded
among leadership and
knowledge worker
• Longest battery life and
premium hardware
• Perfect fit for fleet renewals
and small/medium business
• Full, uncompromised
BlackBerry 10 experience at
low cost
BlackBerry Z10BlackBerry Q5
BlackBerry Z30BlackBerry Q10
43. Voice
Start
1970 1991 2000 2008 2014 2016
Text
Data SmartPhones
Cloud
4G: Conectividad mas rapida
SmartPhones generan grandes cantidades de datos
Contextual Data
SmartPhones
45. 50 mil millones de dispositivos en 2020
Predicciones…
Miles de millones de
transacciones y
multiples exabytes
La tecnologia de hoy,
no lo puede manejar
59. INTERNET de las COSAS
Project Ion
• Una plataforma de aplicaciones seguras
• Facilitación del ecosistema para la Internet de las cosas
• Las asociaciones estratégicas
MC:
GOOD MORNING! MY NAME IS JIM MACKEY AND I AM GOING TO WALK YOU THROUGH BLACKBERRY’S STRATEGY AND VISION. THE MOBILITY WORLD IS MOVING FAST AND IT IS OUR DESIRE TO CONNECT EVERYONE AND EVERYTHING SECURELY.
connected devices (all end points)
Apps - BYOA & Corporate deployed
Data – big data, big influxes of data from M2M connections, fleet monitoring, hospital device connections
Collaboration opportunities – be productive from anywhere using your preferred device (laptop, tablet, smartphone, machine) and preferred app
Access – end users will be able to access any content from any device
MC:
GOOD MORNING! MY NAME IS JIM MACKEY AND I AM GOING TO WALK YOU THROUGH BLACKBERRY’S STRATEGY AND VISION. THE MOBILITY WORLD IS MOVING FAST AND IT IS OUR DESIRE TO CONNECT EVERYONE AND EVERYTHING SECURELY.
Operating system security is arguably the most important component of mobile device security. It’s often overlooked – unlike security tools, controls, and features, or corporate sandboxes, the security of the operating system is generally more opaque to the observer. OS source code is typically not shared, and even if it is, it very difficult to assess the security of millions of lines of code.
It’s a fundamental tenet of security that the integrity of the operating system must be protected, otherwise and security controls or applications running on the operating system
The PlayBook operating system is a hardened version of QNX, and it offers several major security benefits:
QNX implements a microkernel – there are only about 150,000 lines of code
This helps avoid vulnerabilities in the first place – a lot less code to cause security problems.
Secondly, because there is a lot less code, if makes security verification and testing more thorough and robust, given a fixed amount of rsources.
QNX is also designed for resiliency:
The microkernel isolates process in the user space, outside the kernel.
Any unresponsive processes are automatically restarted, without affecting any others.
Also, by design, the number of process that run in root, are absolutely minimized. This reduces security risks.
Only the most essential RIM processes run as root
And root/kernel mode is not available to non-RIM parties.
The QNX microkernel diagram on the right also illustrates how user processes cannot directly access other processes. All interprocess communications must go through the microkernal where is it carefully supervised.
Operating system security is arguably the most important component of mobile device security. It’s often overlooked – unlike security tools, controls, and features, or corporate sandboxes, the security of the operating system is generally more opaque to the observer. OS source code is typically not shared, and even if it is, it very difficult to assess the security of millions of lines of code.
It’s a fundamental tenet of security that the integrity of the operating system must be protected, otherwise and security controls or applications running on the operating system
The PlayBook operating system is a hardened version of QNX, and it offers several major security benefits:
QNX implements a microkernel – there are only about 150,000 lines of code
This helps avoid vulnerabilities in the first place – a lot less code to cause security problems.
Secondly, because there is a lot less code, if makes security verification and testing more thorough and robust, given a fixed amount of rsources.
QNX is also designed for resiliency:
The microkernel isolates process in the user space, outside the kernel.
Any unresponsive processes are automatically restarted, without affecting any others.
Also, by design, the number of process that run in root, are absolutely minimized. This reduces security risks.
Only the most essential RIM processes run as root
And root/kernel mode is not available to non-RIM parties.
The QNX microkernel diagram on the right also illustrates how user processes cannot directly access other processes. All interprocess communications must go through the microkernal where is it carefully supervised.
Operating system security is arguably the most important component of mobile device security. It’s often overlooked – unlike security tools, controls, and features, or corporate sandboxes, the security of the operating system is generally more opaque to the observer. OS source code is typically not shared, and even if it is, it very difficult to assess the security of millions of lines of code.
It’s a fundamental tenet of security that the integrity of the operating system must be protected, otherwise and security controls or applications running on the operating system
The PlayBook operating system is a hardened version of QNX, and it offers several major security benefits:
QNX implements a microkernel – there are only about 150,000 lines of code
This helps avoid vulnerabilities in the first place – a lot less code to cause security problems.
Secondly, because there is a lot less code, if makes security verification and testing more thorough and robust, given a fixed amount of rsources.
QNX is also designed for resiliency:
The microkernel isolates process in the user space, outside the kernel.
Any unresponsive processes are automatically restarted, without affecting any others.
Also, by design, the number of process that run in root, are absolutely minimized. This reduces security risks.
Only the most essential RIM processes run as root
And root/kernel mode is not available to non-RIM parties.
The QNX microkernel diagram on the right also illustrates how user processes cannot directly access other processes. All interprocess communications must go through the microkernal where is it carefully supervised.
Operating system security is arguably the most important component of mobile device security. It’s often overlooked – unlike security tools, controls, and features, or corporate sandboxes, the security of the operating system is generally more opaque to the observer. OS source code is typically not shared, and even if it is, it very difficult to assess the security of millions of lines of code.
It’s a fundamental tenet of security that the integrity of the operating system must be protected, otherwise and security controls or applications running on the operating system
The PlayBook operating system is a hardened version of QNX, and it offers several major security benefits:
QNX implements a microkernel – there are only about 150,000 lines of code
This helps avoid vulnerabilities in the first place – a lot less code to cause security problems.
Secondly, because there is a lot less code, if makes security verification and testing more thorough and robust, given a fixed amount of rsources.
QNX is also designed for resiliency:
The microkernel isolates process in the user space, outside the kernel.
Any unresponsive processes are automatically restarted, without affecting any others.
Also, by design, the number of process that run in root, are absolutely minimized. This reduces security risks.
Only the most essential RIM processes run as root
And root/kernel mode is not available to non-RIM parties.
The QNX microkernel diagram on the right also illustrates how user processes cannot directly access other processes. All interprocess communications must go through the microkernal where is it carefully supervised.
Businesses are already responding to BYOD with CYOD (choose your own device) or COPE (corporate-owned, personally enabled) strategies – in which employees are given a choice of devices to use by their employer and may also be permitted to use them personal purposes –
Huge demand for COPE. Market for Corporate Liable devices is growing.
Stats from IDC showing the growth of this deployment model.
Our strengths are more relevant than ever for managing devices in a secure way.
Gartner named BlackBerry Enterprise Service 10 as the only MDM that supports COPE model.
Drivers for COPE / CYOD
Saving on operational expenditures (IT, training, support)
Easier for IT to monitor and protect devices
Employees can still select the devices, services and apps they want to use, but IT gets to limit what those choices are
Help IT work within legal and regulatory parameters
Balance flexibility with corporate confidentiality and personal privacy requirements
CYOD = Choose Your Own Device – company has a list of authorized devices that employees can choose from. Company owns the devices.
COPE = Corporate Owned, Personal Enabled – company gives you the device they have chosen, but allows personal usage.
.
MC:
GOOD MORNING! MY NAME IS JIM MACKEY AND I AM GOING TO WALK YOU THROUGH BLACKBERRY’S STRATEGY AND VISION. THE MOBILITY WORLD IS MOVING FAST AND IT IS OUR DESIRE TO CONNECT EVERYONE AND EVERYTHING SECURELY.
MC:
GOOD MORNING! MY NAME IS JIM MACKEY AND I AM GOING TO WALK YOU THROUGH BLACKBERRY’S STRATEGY AND VISION. THE MOBILITY WORLD IS MOVING FAST AND IT IS OUR DESIRE TO CONNECT EVERYONE AND EVERYTHING SECURELY.
Thank you for your questions.
Let me now introduce you to Jorge Aguiar, Head of BlackBerry Latin America to discuss a bit more on Secure businesses in this region.