Tips para una efectiva comunicación visualAndrea Descans
Taller de Comunicación Visual - Proyecto Uso y apropiación de TIC en bibliotecas públicas
Un buen #diseño son buenas ideas. Ideas que ayudan, que ayudan a entender, que entendidas ayudan a crecer, desarrollar y decidir.
Este documento ofrece consejos para hacer una presentación a inversores. En resumen: (1) Lo más importante es centrarse en ganar dinero real en lugar de rondas de financiación; (2) Los inversores sólo invierten en empresas con tracción real en el mercado y un equipo sólido, no en planes de negocio o proyecciones; (3) Es crucial entender bien al inversor potencial y asegurarse de que compartan los mismos objetivos a largo plazo.
As presented by Tim Mackey, Senior Technical Evangelist at Black Duck Software, at Open Source Open Standards (GovNet) (http://opensourceconference.co.uk/), this deck covers some of the material which operators of open source data centers and users of container and cloud technologies should be aware of when seeking to be security conscious.
Traditionally, when datacentre operators talk about application security, there has been a tendency to focus on issues related to key management, firewalls and data access. By contrast, application developers have a security focus which is more aligned with code analysis and fuzzing techniques. The reality is, secure application deployment principles extend from the infrastructure layer through the application and include how the application is deployed. With the prevalence of continuous deployment, it’s imperative to focus efforts on what attackers’ view as vulnerable; particularly in an environment where new exploits are being disclosed almost daily.
In this session we’ll present:
- How known vulnerabilities can make their way into production deployments
- How vulnerability impact is maximized
- A methodology for ensuring deployment of vulnerable code can be minimized
- A methodology to minimize the potential for vulnerable code to be redistributed
The document discusses container vulnerability management. It describes the attacker model and how attackers exploit vulnerabilities. It emphasizes that open source code has less security support than closed source commercial code. The document outlines how to secure container contents and environment through techniques like enabling Linux security modules, using a minimal OS, and limiting privileges. It recommends verifying the trustworthiness of container sources and checking for vulnerable open source components. Black Duck software is introduced as a tool to analyze open source usage and risks.
Tips para una efectiva comunicación visualAndrea Descans
Taller de Comunicación Visual - Proyecto Uso y apropiación de TIC en bibliotecas públicas
Un buen #diseño son buenas ideas. Ideas que ayudan, que ayudan a entender, que entendidas ayudan a crecer, desarrollar y decidir.
Este documento ofrece consejos para hacer una presentación a inversores. En resumen: (1) Lo más importante es centrarse en ganar dinero real en lugar de rondas de financiación; (2) Los inversores sólo invierten en empresas con tracción real en el mercado y un equipo sólido, no en planes de negocio o proyecciones; (3) Es crucial entender bien al inversor potencial y asegurarse de que compartan los mismos objetivos a largo plazo.
As presented by Tim Mackey, Senior Technical Evangelist at Black Duck Software, at Open Source Open Standards (GovNet) (http://opensourceconference.co.uk/), this deck covers some of the material which operators of open source data centers and users of container and cloud technologies should be aware of when seeking to be security conscious.
Traditionally, when datacentre operators talk about application security, there has been a tendency to focus on issues related to key management, firewalls and data access. By contrast, application developers have a security focus which is more aligned with code analysis and fuzzing techniques. The reality is, secure application deployment principles extend from the infrastructure layer through the application and include how the application is deployed. With the prevalence of continuous deployment, it’s imperative to focus efforts on what attackers’ view as vulnerable; particularly in an environment where new exploits are being disclosed almost daily.
In this session we’ll present:
- How known vulnerabilities can make their way into production deployments
- How vulnerability impact is maximized
- A methodology for ensuring deployment of vulnerable code can be minimized
- A methodology to minimize the potential for vulnerable code to be redistributed
The document discusses container vulnerability management. It describes the attacker model and how attackers exploit vulnerabilities. It emphasizes that open source code has less security support than closed source commercial code. The document outlines how to secure container contents and environment through techniques like enabling Linux security modules, using a minimal OS, and limiting privileges. It recommends verifying the trustworthiness of container sources and checking for vulnerable open source components. Black Duck software is introduced as a tool to analyze open source usage and risks.
Poďme sa porozprávať prečo sú najväčší poskytovatelia webových služieb tak úspešný, aké technológie používajú, čo sú to tie mikroservisy a ako do toho všetkého zapadá nový OpenShift 3.
Jakub je vývojár OpenShift platformy, open-source nadšenec, ktorý okrem programovania v rozličných jayzkoch ako Go, Ruby, JavaScript nemá problém ani s grafikou a designom.
Contain your risk: Deploy secure containers with trust and confidenceBlack Duck by Synopsys
Presented on September 22, 2016 by Brent Baude, Principle Software Engineer, Atomic and Docker Development, Red Hat; Randy Kilmon, VP, Engineering, Black Duck
Organizations are increasingly turning to container environments to meet the demand for faster, more agile software development. But a 2015 study conducted by Forrester Consulting on behalf of Red Hat revealed that 53% of IT operations and development decision makers at global enterprises reported container security concerns as a barrier to adoption.
The challenges of managing security risk increase in scope and complexity when hundreds or even thousands of different open source software components and licenses are part of your application code base. Since 2014, more than 6,000 new open source security vulnerabilities have been reported, making it essential to have good visibility into and control over the open source in use in order to understand if any known vulnerabilities are present.
In this webinar, experts from Red Hat and Black Duck will share the latest insights and recommendations for securing the open source in your containers, including protecting them from vulnerabilities like Heartbleed, Shellshock and Venom. You’ll learn:
• Why container environments present new application security challenges, including those posed by ever-increasing open source use.
• How to scan applications running in containers to identify open source in use and map known open source security vulnerabilities.
• Best practices and methodologies for deploying secure containers with trust and confidence.
Qué es la comunicación?
Componentes
Formas
Categorías
Medios de Comunicación
Tics - Tecnología de la Información y Comunicación
Internet
Servicios de Internet
Qué necesito?
The document discusses the rise of social media and how real estate businesses can benefit from using social media platforms like Facebook, Twitter, YouTube, and LinkedIn. It notes that while 75% of small businesses don't use social media and 86% don't do email marketing, social media spending is increasing. The document provides tips on setting up business pages on Facebook and Twitter, using blogs to improve SEO, uploading videos to YouTube, and using mobile apps and sites to engage customers. It argues that social media is a cheap, powerful way for real estate businesses to connect with potential customers and get referrals.
This document discusses Maps.me, an offline map app powered by OpenStreetMap data. It has over 40 million downloads and 10 million active monthly users, with under 10% from Russia. The app allows offline browsing of detailed maps that are compact in size. It encourages contributions to OpenStreetMap through its offline editor. The document outlines Maps.me's technical architecture and development processes, emphasizing open source development, code quality practices, and prioritizing user experience.
How to determine a proper scope selection based on ISO 27001?PECB
Meeting Clause 4 - Context of the Organization "generic" requirements of ISO 27001 in order to determine a proper Documented Scope statement that meets business requirements and gives value to products and/or services.
Main points that have been covered are:
• Interested Parties
• Interfaces & Dependencies
• Legal / Regulatory & Contractual Obligations (Risk of Non-Compliance)
• Documented Scope Statement (including locations within Scope)
Presenter:
Mr. David Anders has worked more than 20+ years in the risk management field managing a broad spectrum of consulting services and product solutions. David has worked in the consulting field for 16 years and is the founder / CEO of SecuraStar, LLC, a niche ISO 27001 consulting firm in the United States and founder / CEO of ISMS Manager Software, LLC.
Link of the recorded session published on YouTube: https://youtu.be/hSaAvKgAC2c
A short presentation on my strategic marcom progect for Advanced Technologies Center.
"Advanced Technologies Center" focuses on engineering, development and production of precision instrumentation for research ar micro- and nano- meter scale. The company is one of the pioneers on the atomic force microscopy market in Russia.
Over the past 20 years since company foundation, consumers were offered a number of high-precision measuring equipment conforming the highest international standards. The most well-known ATC product in Russia and abroad, is scanning probe microscope under FemtoScan trademark and FemtoScan Online software, which is highly demanded due to the excellent performance and reasonable price.
Webpage: nanoscopy.ru
Forecast and present sales numbers are left out due to secrecy policy.
The presentation is in Russian (later an Eglish version will occur)
Poďme sa porozprávať prečo sú najväčší poskytovatelia webových služieb tak úspešný, aké technológie používajú, čo sú to tie mikroservisy a ako do toho všetkého zapadá nový OpenShift 3.
Jakub je vývojár OpenShift platformy, open-source nadšenec, ktorý okrem programovania v rozličných jayzkoch ako Go, Ruby, JavaScript nemá problém ani s grafikou a designom.
Contain your risk: Deploy secure containers with trust and confidenceBlack Duck by Synopsys
Presented on September 22, 2016 by Brent Baude, Principle Software Engineer, Atomic and Docker Development, Red Hat; Randy Kilmon, VP, Engineering, Black Duck
Organizations are increasingly turning to container environments to meet the demand for faster, more agile software development. But a 2015 study conducted by Forrester Consulting on behalf of Red Hat revealed that 53% of IT operations and development decision makers at global enterprises reported container security concerns as a barrier to adoption.
The challenges of managing security risk increase in scope and complexity when hundreds or even thousands of different open source software components and licenses are part of your application code base. Since 2014, more than 6,000 new open source security vulnerabilities have been reported, making it essential to have good visibility into and control over the open source in use in order to understand if any known vulnerabilities are present.
In this webinar, experts from Red Hat and Black Duck will share the latest insights and recommendations for securing the open source in your containers, including protecting them from vulnerabilities like Heartbleed, Shellshock and Venom. You’ll learn:
• Why container environments present new application security challenges, including those posed by ever-increasing open source use.
• How to scan applications running in containers to identify open source in use and map known open source security vulnerabilities.
• Best practices and methodologies for deploying secure containers with trust and confidence.
Qué es la comunicación?
Componentes
Formas
Categorías
Medios de Comunicación
Tics - Tecnología de la Información y Comunicación
Internet
Servicios de Internet
Qué necesito?
The document discusses the rise of social media and how real estate businesses can benefit from using social media platforms like Facebook, Twitter, YouTube, and LinkedIn. It notes that while 75% of small businesses don't use social media and 86% don't do email marketing, social media spending is increasing. The document provides tips on setting up business pages on Facebook and Twitter, using blogs to improve SEO, uploading videos to YouTube, and using mobile apps and sites to engage customers. It argues that social media is a cheap, powerful way for real estate businesses to connect with potential customers and get referrals.
This document discusses Maps.me, an offline map app powered by OpenStreetMap data. It has over 40 million downloads and 10 million active monthly users, with under 10% from Russia. The app allows offline browsing of detailed maps that are compact in size. It encourages contributions to OpenStreetMap through its offline editor. The document outlines Maps.me's technical architecture and development processes, emphasizing open source development, code quality practices, and prioritizing user experience.
How to determine a proper scope selection based on ISO 27001?PECB
Meeting Clause 4 - Context of the Organization "generic" requirements of ISO 27001 in order to determine a proper Documented Scope statement that meets business requirements and gives value to products and/or services.
Main points that have been covered are:
• Interested Parties
• Interfaces & Dependencies
• Legal / Regulatory & Contractual Obligations (Risk of Non-Compliance)
• Documented Scope Statement (including locations within Scope)
Presenter:
Mr. David Anders has worked more than 20+ years in the risk management field managing a broad spectrum of consulting services and product solutions. David has worked in the consulting field for 16 years and is the founder / CEO of SecuraStar, LLC, a niche ISO 27001 consulting firm in the United States and founder / CEO of ISMS Manager Software, LLC.
Link of the recorded session published on YouTube: https://youtu.be/hSaAvKgAC2c
A short presentation on my strategic marcom progect for Advanced Technologies Center.
"Advanced Technologies Center" focuses on engineering, development and production of precision instrumentation for research ar micro- and nano- meter scale. The company is one of the pioneers on the atomic force microscopy market in Russia.
Over the past 20 years since company foundation, consumers were offered a number of high-precision measuring equipment conforming the highest international standards. The most well-known ATC product in Russia and abroad, is scanning probe microscope under FemtoScan trademark and FemtoScan Online software, which is highly demanded due to the excellent performance and reasonable price.
Webpage: nanoscopy.ru
Forecast and present sales numbers are left out due to secrecy policy.
The presentation is in Russian (later an Eglish version will occur)
Кластеры, получившие право на государственную субсидию; как технологические платформы могут повлиять на развитие регионального кластера; примеры взаимодействия технологических платформ и кластеров: технологическая платформа "Освоение океана" и Дальневосточное инновационное научно-производственное объединение (кластер) по подводным технологиям и морскому приборостроению; технологическая платформа "Биотех-2030" - Cluster Indusrielle Biotechnologie, Тамбовский биоэкономический кластер с международным участием, Калужский фармацевтический кластер; технологическая платформа "Авиационная мобильность" и кластер Pole Pegase (Франция); кластеры в моногородах; европейская технологическая платформа ManuFuture и инновационный кластер Produtech, Португалия. www.rftr.ru
[Skolkovo Robotics 2015 Day 2] Гудков П.Г. ПОДДЕРЖКА ПРОЕКТОВ В СФЕРЕ РОБОТО...Skolkovo Robotics Center
Доклад Заместителя генерального директора Фонда содействия развитию малых форм предпринимательства в научно-технической сфере на конференции Skolkovo Robotics 2015
CEM-Technology has developed a mobile diagnostic device called Smart Thermometer that can monitor over 100 diseases by measuring temperature in different body areas and visualizing thermal fields. It automatically analyzes results and provides conclusions to users. The portable, non-invasive device has a competitive advantage over other options due to its wide disease coverage using a single device and automated interpretation of examination results. CEM-Technology is seeking licensing partners, especially in South Korea, to mass produce and distribute the Smart Thermometer globally by 2017.
The document describes a proposed mobile diagnostic device from the Hranitel group in Moscow. It would allow remote monitoring of vital signs and diagnosis of medical conditions using sensors, mobile devices, and cloud resources. Key features include non-invasive ECG and blood glucose monitoring. A team of doctors and engineers will develop the hardware, sensors, and diagnostic software. The business plan envisions individual and clinical use, with distribution through online sales, distributors, and government programs. Risks like sensor development delays will be mitigated through iterative design. The total projected budget is 38,500 thousand rubles over 3 years.
This document summarizes a proposal for a mobile diagnostic device (MDD) created through an international collaboration between organizations in Russia, Serbia, and England. The MDD uses innovative sensors and diagnostic methods to monitor patients' health remotely. It has several competitive advantages over other solutions like its ability to securely collect data from many sensors using little energy. The proposal outlines a business model to sell the MDD for individual use and to clinics. It provides a roadmap projecting funding needs and sales over 5 years to develop, manufacture, and commercialize the mobile diagnostic device globally.
This document describes a proposed mobile diagnostic device (MDD) created by AstMedKom. The MDD aims to reduce healthcare costs and mortality from chronic diseases by integrating various diagnostic sensors, modules, and telemedicine capabilities into a single portable device. It can diagnose 68 common diseases across multiple body systems using 10 diagnostic methods. The MDD connects to the cloud for data storage and sharing with doctors and patients. It has a modular design and uses low-cost components. The developers project revenue of over 24 million rubles by the fifth year as production scales up, with a payback period of 5 years.
This document introduces a mobile diagnostic device created through a partnership between a Swiss and Russian company. It aims to become a world market leader in telemedicine equipment within five years. The device would be inexpensive, easy to use, and allow for long term health monitoring through accurate sensors. It would function similarly to a wrist watch and use artificial intelligence to diagnose patients based on sensor data, recommending treatments to physicians. The device senses various vital signs through unique autonomous sensors adapted for wearable integration. The partnership combines medical, technical and business expertise from both countries to develop, test, manufacture and commercialize the product globally.
The National Medical System company developed a mobile diagnostic device to detect common diseases like high blood pressure, heart arrhythmias, diabetes, and metabolic syndrome by measuring vital signs, running biochemical tests, and performing cardiology and pulmonary function tests using embedded modules. The device aims to provide affordable healthcare services through a direct or dealer sales model. The company is seeking 10 million rubles in investment to complete research, design, software development, prototyping, and testing over the next two years.
The document introduces MetaScan, a joint venture between researchers in Russia and the UK to develop a portable diagnostic device. The device will use a combination of biomarkers detected through non-invasive means to quickly and accurately diagnose medical conditions like prostate cancer. If successful through clinical trials, the portable design could make the diagnostics broadly available and affordable. The team believes their device offers advantages over existing options in terms of accuracy, cost, ease of use and immediate results.
1) i-Bolit is developing a mobile diagnostic device (MDD) for the Russian healthcare market, which is projected to grow to $1 billion by 2020.
2) The MDD will use patented wireless communication and sensor technologies to provide diagnostic abilities through an intelligent analytical system.
3) It will have competitive advantages over other devices through its communication protocols, data-driven analytical system, and patented sensor technologies.
The document provides an overview of i-Bolit's proposed mobile diagnostic device, including its technical capabilities, competitive advantages, business model, team, partners, and roadmap.
This document describes a remote patient monitoring system and the team developing it. The system monitors various health characteristics like ECG, blood pressure, temperature, and breathing rates. It can diagnose conditions of the circulatory, respiratory, and nervous systems like arrhythmias, asthma, apnea, and vegetovascular dystonia. The business model involves selling to medical, military, insurance, and private sectors. The development team includes experts in medicine, engineering, programming, and design, led by a project manager with startup experience. A timeline shows development progressing through 2013 and into 2014.
1) FRUCT proposes developing a mobile diagnostics device (MDD) using wireless sensors and cloud-based diagnostics to screen for various chronic diseases and health conditions.
2) The initial MDD would use sensors for ECG, pulse oximetry, blood pressure, spirometry, glucometry, respiratory rate, and temperature connected to a smartphone or home gateway.
3) It would analyze diagnostic data in the cloud to screen for conditions like sleep apnea, hypertension, arrhythmias, asthma, atherosclerosis, and more. The goal is low
The document describes plans for a mobile diagnostic unit called ANGIOSCAN. It will be developed by ANGIOSKAN-Electronics and aims to bring new medical technology to market based on advances in diagnostics. The unit will contain biosensors and other devices to non-invasively diagnose conditions like anemia, lung disease, heart arrhythmias, sleep apnea, diabetes, and heart disease. It integrates with health systems and aims to shift focus from treatment to prevention. The team has patents and products in development. Their roadmap includes further development, testing, and mass production over the next few years.
The Mobile Diagnostic Device (MDD) was conceived by the RWM Alliance, an international joint venture established in 2008 between companies from Russia, Canada, and Israel. The MDD is a portable diagnostic tool that corresponds to over 60% of diagnostic requirements in Russia, and serves multiple diagnostic functions for less than $200. It offers advantages such as an open architecture, ease of use, integration of modern technologies, and is ready for commercial production. The RWM Alliance team has extensive experience in research and development, manufacturing, and creating national telemedicine infrastructures through public-private partnerships.
8. Команда. Ключевые участники.
Дмитриев А.С., руководитель
проекта, д. ф.-м. н.,
Анциперов В.Е., к. ф.-м.н.,
профессор, дважды лауреат
специалист по методам
Премии Совета министров
удаленной медицинской
СССР
диагностике и телемедицине
Белый Ю.Н., д. м. н., профессор,
специалист по фармакологии и
биомедицинской электронике
Петухов С. В., д.ф.-м.н., к.б.н.,
Кузьмин Л.В., д. ф.-м. н., лауреат Государственной премии
специалист по СШП системам СССР, специалист по
радиосвязи и беспроводным биоинформатике, биофизике,
сенсорным сетям мат. моделированию
биологических систем
9. Партнёры проекта.
Научно-технические партнеры
ИРЭ РАН МФТИ (ГУ) ИМ РАН
Технологические партнеры
ООО «Нанохаос» ОАО «Ангстрем-Т»
Медицинские партнеры
ИМБП РАН ГВКГ Больница
им. Бурденко им. Семашко ИМТ РАМН ФНКЦ ФМБА
ОАО «РЖД» России
10. Финансовый план создания устройства
Продолжительность Проекта 24 месяца
Время, мес. 1-12 13-24
Требуемые
24,0 48,0
финансы, млн. руб.
Опытный образец и
Экспериментальный
Результат образец
партия,
сертификация
11. Финансовый план коммерциализации Проекта
СТАДИИ ФИНАНСИРОВАНИЯ
1-й год 2-й год 3-й год 4-й год 5-й год
Вложения,
30 150 360 750 –
млн. руб.
Капитализация, млн. руб. 1 500 6 000
Продажа Продажа
Выход инвестора
компании компании
12. Спасибо за внимание!
Контакты команды:
mail@anamezon.com,
+7 495 629 72 78, Кузьмин Лев