Status of the MEMS Industry 2018 Market and technology Report by Yole Dévelop...Yole Developpement
Megatrends are invigorating the MEMS industry.
More information on : https://www.i-micronews.com/category-listing/product/status-of-the-mems-industry-2018.html
Sensors for Cellphones and Tablets - 2016 Report by Yole DeveloppementYole Developpement
In a global cellphone and tablet industry worth over $400B, sensors commanded US$12.2B in 2015, with 9.5% CAGR forecasted for 2015-2021.
The sensor market is still growing impressively, but needs to reinvent itself to avoid commoditization
While many are fearing a general slowdown due to smartphone market saturation, our forecast is rather optimistic concerning sensors. Driven by the expansion of the smartphone category over other phones and new applications, the sensor industry for cellphones and tablets is expected to grow at a 9.5% compound annual growth rate (CAGR) from 2015-2021. The market was worth US$12B in 2015, and will reach US$21B by 2021. The sensor offering has never been so diverse. The list includes: Accelerometers, gyroscopes, gyroscope for optical image stabilization (OIS), magnetometers, e-compasses, inertial measurement units (IMUs), including nine degree-of-freedom (9DOF) IMUs, microphones, pressure sensors, humidity and temperature (H&T), gas, ambient light sensors (ALS), proximity, red/green/blue (RGB) color sensors, heart rate monitors (HRMs), laser rangers, 3D cameras, CMOS image sensors (CISs), fingerprint and iris recognition. Makers of all such sensors need to stay at the cutting edge of innovation. In this report, we’ve analyzed and forecasted evolution of those sensors integrated in current smartphones, distributed in three different categories: the motion sensing hub, the environmental hub and the optical hub.
Report’s Key Features
• PDF with > 80 slides
• Excel file > 4,350 patents
• Overview of the most recent patents published in 2019 by MEMS players.
• Main patent applicants.
• Main MEMS technologies and devices analyzed:
– Inertial sensors (accelerometers, gyroscopes, IMUs)
– Microphones
– Microspeakers
– Ultrasonic sensors
– Gas sensors
– Pressure sensors
– Micromirrors
– MEMS Packaging
• IP dynamics and trends of the different MEMS devices.
• Comparison of recent IP and market activities.
• Noticeable 2019 patents from main players.
• Excel database containing all patents analyzed in the report, including technology and application segmentation.
How the MEMS Industry Can Extract More Value From its Customers? by JC. Eloy ...Yole Developpement
The document discusses how the MEMS industry can extract more value from customers. It notes that while MEMS markets and volumes are growing, the value is shifting from individual sensor devices to integrated sensor functions and data processing. The document advocates that MEMS companies change their mindset from selling standalone sensors to developing integrated sensor functions through packaging, combining multiple sensors, and adding software for data processing and new applications. This will allow MEMS players to better capture value in the growing markets for wearables, mobile devices, and other electronic products.
Hearing, Touching, Smelling, Seeing... What will be the next improvement MEMS...Yole Developpement
Hearing, Touching, Smelling, Seeing... What will be the next improvement MEMS will bring to our senses?
MEMS is a “transfer function” using semiconductor micro-machining based technologies to create devices replacing more complex, bulky or less sensitive devices.
•The 5 criteria that determine a MEMS success: size reduction, potential cost reduction, “good enough” specifications, simpler manufacturing compared to existing solutions (less mechanical parts for e.g.) & reliability.
•Among all the different MEMS devices in development that could have a significant growth in the future, we foresee gas sensors as the next success for the MEMS industry.
•In any case, at least 10 to 15 years of development are necessary to achieve all the successful criteria.
Gas sensors are likely to have a marketrampup.
In the ultrasound module market, CMUT and PMUT are growing two times faster in medical and consumer applications.
More information: https://www.i-micronews.com/products/ultrasound-sensing-technologies-2020/
Report’s Key Features
• PDF with > 80 slides
• Excel file > 4,350 patents
• Overview of the most recent patents published in 2019 by MEMS players.
• Main patent applicants.
• Main MEMS technologies and devices analyzed:
– Inertial sensors (accelerometers, gyroscopes, IMUs)
– Microphones
– Microspeakers
– Ultrasonic sensors
– Gas sensors
– Pressure sensors
– Micromirrors
– MEMS Packaging
• IP dynamics and trends of the different MEMS devices.
• Comparison of recent IP and market activities.
• Noticeable 2019 patents from main players.
• Excel database containing all patents analyzed in the report, including technology and application segmentation.
MEMS & Sensors challenges & opportunities for the next decade 2016 Presentati...Yole Developpement
MEMS & Sensors enable key functionalities…
Current battleground of the industry
MEMS is a semiconductor technology thus enabling miniaturization and lower cost manufacturing of existing products
Automotive is the historical MEMS high volume market
Transition started in 2003 towards consumer products…
After decreasing die size, improvements are now focused on packaging issues and use of through silicon vias (TSVs) for instance
Status of the MEMS Industry 2018 Market and technology Report by Yole Dévelop...Yole Developpement
Megatrends are invigorating the MEMS industry.
More information on : https://www.i-micronews.com/category-listing/product/status-of-the-mems-industry-2018.html
Sensors for Cellphones and Tablets - 2016 Report by Yole DeveloppementYole Developpement
In a global cellphone and tablet industry worth over $400B, sensors commanded US$12.2B in 2015, with 9.5% CAGR forecasted for 2015-2021.
The sensor market is still growing impressively, but needs to reinvent itself to avoid commoditization
While many are fearing a general slowdown due to smartphone market saturation, our forecast is rather optimistic concerning sensors. Driven by the expansion of the smartphone category over other phones and new applications, the sensor industry for cellphones and tablets is expected to grow at a 9.5% compound annual growth rate (CAGR) from 2015-2021. The market was worth US$12B in 2015, and will reach US$21B by 2021. The sensor offering has never been so diverse. The list includes: Accelerometers, gyroscopes, gyroscope for optical image stabilization (OIS), magnetometers, e-compasses, inertial measurement units (IMUs), including nine degree-of-freedom (9DOF) IMUs, microphones, pressure sensors, humidity and temperature (H&T), gas, ambient light sensors (ALS), proximity, red/green/blue (RGB) color sensors, heart rate monitors (HRMs), laser rangers, 3D cameras, CMOS image sensors (CISs), fingerprint and iris recognition. Makers of all such sensors need to stay at the cutting edge of innovation. In this report, we’ve analyzed and forecasted evolution of those sensors integrated in current smartphones, distributed in three different categories: the motion sensing hub, the environmental hub and the optical hub.
Report’s Key Features
• PDF with > 80 slides
• Excel file > 4,350 patents
• Overview of the most recent patents published in 2019 by MEMS players.
• Main patent applicants.
• Main MEMS technologies and devices analyzed:
– Inertial sensors (accelerometers, gyroscopes, IMUs)
– Microphones
– Microspeakers
– Ultrasonic sensors
– Gas sensors
– Pressure sensors
– Micromirrors
– MEMS Packaging
• IP dynamics and trends of the different MEMS devices.
• Comparison of recent IP and market activities.
• Noticeable 2019 patents from main players.
• Excel database containing all patents analyzed in the report, including technology and application segmentation.
How the MEMS Industry Can Extract More Value From its Customers? by JC. Eloy ...Yole Developpement
The document discusses how the MEMS industry can extract more value from customers. It notes that while MEMS markets and volumes are growing, the value is shifting from individual sensor devices to integrated sensor functions and data processing. The document advocates that MEMS companies change their mindset from selling standalone sensors to developing integrated sensor functions through packaging, combining multiple sensors, and adding software for data processing and new applications. This will allow MEMS players to better capture value in the growing markets for wearables, mobile devices, and other electronic products.
Hearing, Touching, Smelling, Seeing... What will be the next improvement MEMS...Yole Developpement
Hearing, Touching, Smelling, Seeing... What will be the next improvement MEMS will bring to our senses?
MEMS is a “transfer function” using semiconductor micro-machining based technologies to create devices replacing more complex, bulky or less sensitive devices.
•The 5 criteria that determine a MEMS success: size reduction, potential cost reduction, “good enough” specifications, simpler manufacturing compared to existing solutions (less mechanical parts for e.g.) & reliability.
•Among all the different MEMS devices in development that could have a significant growth in the future, we foresee gas sensors as the next success for the MEMS industry.
•In any case, at least 10 to 15 years of development are necessary to achieve all the successful criteria.
Gas sensors are likely to have a marketrampup.
In the ultrasound module market, CMUT and PMUT are growing two times faster in medical and consumer applications.
More information: https://www.i-micronews.com/products/ultrasound-sensing-technologies-2020/
Report’s Key Features
• PDF with > 80 slides
• Excel file > 4,350 patents
• Overview of the most recent patents published in 2019 by MEMS players.
• Main patent applicants.
• Main MEMS technologies and devices analyzed:
– Inertial sensors (accelerometers, gyroscopes, IMUs)
– Microphones
– Microspeakers
– Ultrasonic sensors
– Gas sensors
– Pressure sensors
– Micromirrors
– MEMS Packaging
• IP dynamics and trends of the different MEMS devices.
• Comparison of recent IP and market activities.
• Noticeable 2019 patents from main players.
• Excel database containing all patents analyzed in the report, including technology and application segmentation.
MEMS & Sensors challenges & opportunities for the next decade 2016 Presentati...Yole Developpement
MEMS & Sensors enable key functionalities…
Current battleground of the industry
MEMS is a semiconductor technology thus enabling miniaturization and lower cost manufacturing of existing products
Automotive is the historical MEMS high volume market
Transition started in 2003 towards consumer products…
After decreasing die size, improvements are now focused on packaging issues and use of through silicon vias (TSVs) for instance
Wafer starts for More than Moore applications 2018 Report by Yole Developpement Yole Developpement
Driven by megatrend markets, More than Moore devices’ overall wafer demand is expected to grow at an almost 10% CAGR from 2017 to 2023.
More information on that report at https://www.i-micronews.com/report/product/wafer-starts-for-more-than-moore-applications.html
Emerging MEMSPatent Investigation 2014 Report by Yole DeveloppementYole Developpement
Who owns key patents for high-growth emerging MEMS innovations?
The report provides essential patent data, technology analysis and market forecasts for 7 selected Emerging MEMS (eMEMS) technologies that we believe will soon reach the marketplace: autofocus, AOC MEMS, chemical sensors, micro-speakers, scanning micro-mirrors, Si microfluidic and ultrasonic MEMS. The market for emerging MEMS covered in this report is expected to grow from US$171M in 2013 to US$2.8B in 2019, corresponding to a 58.2% CAGR.
UNDERSTAND WHICH COMPANIES OWN THE KEY PATENTS FOR THE FUTURE OF EMERGING MEMS
Patent activity related to eMEMS began in the 1990s and we observe a takeoff of patent publications for AutoFocus (AF), scanning micro-mirrors and ultrasonic MEMS technologies since the mid-2000s.
MEMS AF patent activity is new, but has increased since its emergence in 2009. This period also corresponds to the growth of the CMOS image sensor market for consumer applications, requiring more compact camera modules with more functionalities. Cambridge Mechatronics and DigitalOptics are currently the leading patent holders, but Korean giant LG has become a major force since 2010. Today MEMS AF is still a hot topic especially for cell phones and tablets, but wasn’t adopted in 2013. Although MEMS AF has promising market potential, it still faces strong market and technical challenges, which might explain the increasing patent activity of recent years.
More information on that report at http://www.i-micronews.com/mems-sensors-report/product/emerging-mems-patent-investigation-2014.html
Proliferation of cameras for imaging and sensing is driving CMOS image sensor (CIS) growth.
More information on that report at : https://www.i-micronews.com/report/product/status-of-the-cis-industry-2018.html
From almost zero to a multi-billion dollar market in three years!
Apple introduced the iPhone 5s in 2013, after acquiring Authentec a year earlier. Since then, fingerprint sensors have been massively adopted, and the volumes of sensors shipped into the consumer market have grown incredibly. At first, the sensors were a convenience and protection feature for unlocking phones. However, they are now shifting into a security feature for online identification and mobile payment in an increasing number of smartphones.
From 23 million units in 2013, 689 million fingerprint sensors for smartphones were sold in 2016. This is an incredible 210% compound annual growth rate (CAGR) between 2013 and 2016! The 2016-2022 timeframe will see a more reasonable, but still impressive, 19% CAGR.
Fingerprint sensing is becoming a mandatory feature on every smartphone, adding a lot of value. However such an increase in volume is always followed by strong cost pressure, and this is what has happened over the last three years. The average cost of a fingerprint sensor has decreased from around $5 in 2013 to $3 in 2016, and even less for low-end technologies. And the pressure hasn’t gone away. Current technologies have now reached maturity, and are threatened by new technologies, which need lower cost to gain momentum. This is the case for ultrasonic detection, for instance.
For more information please visit our website: http://www.i-micronews.com/reports.html
Microphones, Microspeakers and Audio Solutions Market and Technology Trends 2019Yole Developpement
The voice-based world is shaking up the audio industry, making it worth $20.8B in 2024.
More information on https://www.i-micronews.com/products/microphones-microspeakers-and-audio-solutions-market-and-technology-trends-2019/
Mems and sensors packaging technology and trends presentation held by Amandin...Yole Developpement
MEMS & sensors transitioning towards 3 main Hubs…
The inertial hub
Examples of MEMS companies with a «sensors integration» road (e.g., mCubewith iGyro, Spectral Engines with integrated spectrometer, Bosch with environmental combo sensors, AMS with optical combos, InvenSense with IMUs ….
MEMS and Sensors for Automotive 2017 Report by Yole Developpement Yole Developpement
How will sensor technology shape the cars of the future? We are only at the very beginning of a bright future for sensor providers – be prepared for the golden age of the automotive sensor industry.
THE REBORN AUTOMOTIVE SENSOR MARKET WILL BE WORTH MORE THAN $20B BY 2022
In a global automotive market worth than US$2.3T, the little world of automotive sensors has recently been shaken up by the emergence of electric and autonomous cars. Despite just 3% growth in the volume of cars sold expected through to 2022, Yole Développement (Yole) expects an average growth rate in sensors sales volumes above 8% over the next five years, and above 14% growth in sales value. This is thanks to the expanding integration of high value sensing modules like RADAR, imaging and LiDAR. The current automotive sensing market groups MEMS and classic active sensors such as pressure, tire pressure monitoring systems (TPMS), chemical, inertial, magnetic, ultrasonic, imaging, RADAR and LiDAR. We estimate that this market is worth US$11B in 2016 and is expected to reach US$23B by 2022. This is mainly due to the boom in imaging, RADAR and LiDAR sensors, which will respectively be worth US$7.7B, US$6.2B and US$1.4B by 2022. Among classical sensors like pressure, chemical and magnetic sensors, the impact of electric vehicles will remain small in the short term. However, the advent of electrical vehicles will greatly change the amount and the distribution of pressure and magnetic sensors within the car in the longer term. More electric cars will mean fewer pressure sensors and a surge in magnetic sensors for battery monitoring and various positioning and detection of moving pieces. Finally, we believe that the automotive world is experiencing one of the fastest-changing eras in its evolution ever. Sensor suppliers are now engaged in a race where they need to be prepared for the golden age of the automotive world.
This report describes the applications, technologies, and players associated with the automotive sensor market’s impending changes.
More information on that report at http://www.i-micronews.com/reports.html
Status of the CMOS Image Sensor Industry 2017 - Report by Yole DeveloppementYole Developpement
New applications are transforming the market and technology playing field for CMOS image sensors
It’s ten years down the line from the initial Apple iPhone that started the smartphone era. Since then, CMOS imaging has benefited from huge market demand and a technology-driven environment, resulting in an $11.6B industry in 2016. Photography and video is the main application, which is totally transformed by new use cases, new devices and new technologies.
The mobile market is key for the CMOS image sensor (CIS) industry. Despite saturation in the number of handsets, the CIS market has been able to maintain a 10.5% compound annual growth rate (CAGR) for the 2016-2022 period due to the introduction of dual and 3D cameras. These additional cameras are changing the industry’s drivers from form factor and image quality to interactivity.
Penetration into higher added value markets such as automotive, security and medical shows that CIS products are transforming use cases across the board. CIS technology adoption allows greater automation levels at low cost, while using newly available computing architectures such as deep learning. The CMOS image sensor industry is currently in a virtuous circle where a new technology is providing true customer value.
Acoustic MEMS and Audio Solutions 2017 - Report by Yole DeveloppementYole Developpement
The audio business is about to experience profound changes
Audio is becoming a key function of multiple existing and new products that increasingly has to be analyzed as a complete landscape compared to independent devices. From mobile phones to cars, from home assistants to drones, audio products like microphones, speakers and audio integrated circuits (ICs) are essential for all the new systems driving consumer electronic markets. The total audio business was worth more than $15B in 2016. With a compound annual growth rate (CAGR) close to 6%, in 2022, the audio device market will be worth $20B and become a key feature in all the applications it is involved in. And there’s clearly room for more added value in the audio supply and value chain, as well as other significant changes.
In 2016, Yole estimates that the MEMS microphone market has almost reached the $1B milestone, with a value of $993M. Combined with the $700M electret condenser microphone (ECM) market, now the acquisition of sound is almost a $2B value market. The µspeaker market is estimated to be worth $8.7B, (meaning speakers less than two inches in diameter). In addition to these two visible elements of the audio chain, the audio IC market, which includes codecs, digital signal processors (DSPs) and amplifiers, is estimated to be worth $4.3B in 2016.
This new Yole report describes the evolution of the three audio functions, microphones, speakers and audio ICs, technical trends, as well as the evolution of the strategies of the main players to capture a larger part of this fast-growing field.
For more information about our report, please visit our website: https://www.i-micronews.com/reports.html
This document provides a summary of an emerging MEMS patent investigation report by Knowmade and Yole Développement. The report analyzes over 1,300 patent families related to 7 types of emerging MEMS technologies: AOC MEMS, Autofocus, Chemical Sensors, Micro-Speakers, Scanning Micro-Mirrors, Si Microfluidics, and Ultrasonic MEMS. For each technology, the report provides an overview of the market and key patents, including rankings of major patent applicants and analysis of their patent portfolios and networks. It also includes timelines of patent publications and key findings on the leading IP holders for each emerging MEMS technology.
Machine Vision for Industry and Automation 2018 Report by Yole DeveloppementYole Developpement
Machine vision is at the heart of the automation revolution.
More information on that report at https://www.i-micronews.com/report/product/machine-vision-for-industry-and-automation-2018.html
3D Imaging & Sensing 2018 Reports by Yole DeveloppementYole Developpement
The iPhone X initiated a trend. What happens next?
More information here: https://www.i-micronews.com/category-listing/product/p3d-imaging-sensing-2018.html
Silicon Photonics 2018 - Report by Yole Developpement Yole Developpement
Fueled by increasing internet traffic thanks to social networks, video and gaming content, increasing bandwidth will be required for inter- and intra-data center communications. As a short term answer to this possible bandwidth congestion, new photonics technology for transceivers is still pulled onto the market by Google, Apple, Facebook, Amazon and Microsoft (GAFAM) and now by Baidu, Alibaba and Tencent (BAT) in China.
More information on that report at http://www.i-micronews.com/reports.html
Gas and Particle Sensors 2018 - Technology, Industry, and Market Trends repor...Yole Developpement
Air quality is breathing life into the sensor market!
More information on : https://www.i-micronews.com/category-listing/product/gas-and-particle-sensors-2018.html
Status of the CMOS Image Sensor Industry 2016: New Dynamics in Market and Tec...Yole Developpement
New functions are pushing change in CMOS image sensors, boosting the market toward $18.8B in 2021 at 10.4% CAGR
Beyond $10B: The CMOS image sensor industry keeps growing at high pace
Driven by renewed mobile and automotive applications, the CMOS image sensor (CIS) industry is expected to expand at a compound annual growth rate (CAGR) of 10.4% from 2015 to 2021, reaching US$18.8B market value by 2021.
Yole Développement expects sustained growth of the CMOS image sensor industry for the next five years. Increasing camera content in smartphones will more than offset slower smartphone volume growth. The trend for dual and 3D cameras will have a major impact on CIS volumes. While it is too early to fully describe the strategy of the main actors yet, some products are already on the market. The 2016 report comprehensively covers key market and technology choices.
One big story this year is the consumer market, which is recovering from the total collapse of digital photography. While action cameras seem to have reached a ceiling, new applications such as drones, robots, virtual reality and augmented reality are ready to rejuvenate this emblematic market. The Automotive camera market has established itself as a key growth market for CIS. The Advanced Driver Assistance (ADAS) trend is further increasing pressure on vendors to provide sensors beyond their current technical capabilities. Image analysis is the new frontier and early usage of artificial intelligence is catching people’s imagination. We are therefore in the middle of an explosive growth pattern that will not slow down before 2021. An exceptionally high 23% CAGR is predicted in automotive for the 2015-2021 period.
- The uncooled infrared imager and detector market is attracting interest from big companies like LG Innotek, Amazon, and Caterpillar as these companies launch new products using these technologies.
- Annual shipments of microbolometers are expected to reach 2 million units by 2021, up from 1.3 million units shipped in 2017, driven by new applications.
- The top 3 players in the microbolometer market in 2017 were FLIR with 66% market share, ULIS with 13% share, and Seek Thermal with 12% after shipping over 100,000 units. The infrared detector market remains more conservative with the top 5 players holding around 80% of the $252 million market
Gas Sensors, Detection of Particles, 3D Images…: What are the Next opportunit...Yole Developpement
MEMS is a semiconductor technology thus enabling miniaturization and lower cost manufacturing of existing products
A psychological survey in 1994 by Hatwell (Hatwell, Y. (1994). Traitéde psychologie expérimentale. Paris, P.U.F.) showed that 83% of our external world perception is through our vision.
Thus a high quality image is highly valued by the user –today Smartphone bill of materials is $10 for the camera module.
The next senses we use are Audio and Smell. Thus, we believe next innovation in MEMS & Sensors will be for microphones.
Gas sensors could be the next one to be valued for consumer applications.
Complete integration has been achieved at sensor level
Strong miniaturization race
Still some developments on power consumption, advanced packaging
Major developments at Software level to achieve sensor fusion
Accurate data acquisition
Precise tracking within the environment
After decreasing die size, improvements are now focused on packaging issues and use of through silicon vias (TSVs) for instance
An ever growing market
Imaging is highly valued
The imaging industry stopped the low cost/high integration model by increasing the pixel size and thus the die size
Interesting way for the MEMS industry to gain value:
More integration at environmental level seems a good opportunity
Pressure + Microphone
Add Particles & Gas detection (market pull)
High power consumption
•Limited access to sensors
•Players: Qualcomm, Samsung, Apple, etc…
•Application processors and MCU manufacturers try to override sensor hubs and access the fullfunctionality of the sensors. It requires allocated resources, may be not as optimized as a sensor hub provides
Deep access to the functionalities of the sensor
•Low power consumption
•Optimized performance
•They try to add value to their sensors by providing sensor hub, adding software and promoting use case,showing there al added-value offer by their sensors combined with their software.
A great competition to gather value at a higher level in the system, because value is in the software, not in the hardware.
More information on that report at http://www.i-micronews.com/reports.html
New Detection Principles & Technical Evolution for MEMS & NEMS 2014 Report by...Yole Developpement
This report provides an overview of current and future MEMS and NEMS detection principles and technical challenges. It discusses trends in areas like inertial sensors and uncooled infrared imaging. New approaches are identified to reduce costs and sizes, such as 3D integration, improved manufacturing processes, and novel detection methods. Emerging areas like M&NEMS, suspended microchannel resonators, and quartz crystal microbalances are profiled. The market for devices using new approaches is projected to grow significantly in coming years.
Status of the Camera Module Industry 2019 – Focus on Wafer Level Optics repor...Yole Developpement
This document provides an overview and analysis of the camera module industry in 2019 with a focus on wafer level optics. It includes the following key points:
- The report objectives are to provide market data, analysis of the industry ecosystem and value chain, and insights into technology trends in areas like wafer level optics.
- The methodology involves aggregating information from various sources to build a bottom-up forecast model for metrics like revenue, shipments and market share.
- The camera module industry ecosystem includes players that supply image sensors, lenses, autofocus and optical image stabilization components, and camera module assembly, with a total revenue of $27.1 billion in 2018.
The one million robotic vehicle milestone will be reached by end of the decade: The industrial phase has been launched.
More information on: https://www.i-micronews.com/products/sensors-for-robotic-mobility-2020/
You have been asked to explain the differences between certain categ.docxshericehewat
You have been asked to explain the differences between certain categories of crimes. For each of the following categories of crime, provide a general definition of the category of crime and give at least two detailed examples of specific crimes that fall into each category:
Crimes against persons
Crimes against property
Crimes of public morality
White-collar crime
Cyber crime
Then for the following scenarios, discuss the categories of crimes involved in each scenario and explain the specific criminal charges that you would apply to each scenario. You can utilize the Library, Internet and other resources to research the criminal statutes of a state of your choice in order to help you determine which criminal charges should be applied:
David S. was running around a public park without his clothes on, singing and shouting loudly, at 3 in the morning. Police arrived after neighbors called to complain. They saw David S. tipping over a garbage can and when they shouted for him to stop, he threw the garbage can into a car, breaking one of its side windows. The police arrested David S, His blood alcohol level was twice the legal limit.
Gary M. was arrested by the FBI when he showed up at a local mall to meet a "14 year old girl" for a date, which he arranged over the Internet. He didn't know that the "14 year old girl" was actually a 35-year old male FBI agent.
Elaine R. was an accountant working for a large corporation. She had been falsifying the accounting records and sending some of the corporate funds to her own bank accounts in an offshore bank. The corporation found out what she had been doing and reported her to the police.
Please submit your assignment.
.
You have been asked to help secure the information system and users .docxshericehewat
You have been asked to help secure the information system and users against hacking attempts. Complete the following:
Take this opportunity to describe the 4 different approaches and techniques a hacker would use to steal the organization's data.
For each approach, discuss what methods can be used to circumvent the attack, prevent it, or minimize the disruption caused by the event.
Include 2–3 pages of material covering the 3 discussion areas in Section 5 of your Key Assignment document (including the completed previous 4 sections).
social engineering,dumpster diving,identify theft,cyberterrorist
.
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Wafer starts for More than Moore applications 2018 Report by Yole Developpement Yole Developpement
Driven by megatrend markets, More than Moore devices’ overall wafer demand is expected to grow at an almost 10% CAGR from 2017 to 2023.
More information on that report at https://www.i-micronews.com/report/product/wafer-starts-for-more-than-moore-applications.html
Emerging MEMSPatent Investigation 2014 Report by Yole DeveloppementYole Developpement
Who owns key patents for high-growth emerging MEMS innovations?
The report provides essential patent data, technology analysis and market forecasts for 7 selected Emerging MEMS (eMEMS) technologies that we believe will soon reach the marketplace: autofocus, AOC MEMS, chemical sensors, micro-speakers, scanning micro-mirrors, Si microfluidic and ultrasonic MEMS. The market for emerging MEMS covered in this report is expected to grow from US$171M in 2013 to US$2.8B in 2019, corresponding to a 58.2% CAGR.
UNDERSTAND WHICH COMPANIES OWN THE KEY PATENTS FOR THE FUTURE OF EMERGING MEMS
Patent activity related to eMEMS began in the 1990s and we observe a takeoff of patent publications for AutoFocus (AF), scanning micro-mirrors and ultrasonic MEMS technologies since the mid-2000s.
MEMS AF patent activity is new, but has increased since its emergence in 2009. This period also corresponds to the growth of the CMOS image sensor market for consumer applications, requiring more compact camera modules with more functionalities. Cambridge Mechatronics and DigitalOptics are currently the leading patent holders, but Korean giant LG has become a major force since 2010. Today MEMS AF is still a hot topic especially for cell phones and tablets, but wasn’t adopted in 2013. Although MEMS AF has promising market potential, it still faces strong market and technical challenges, which might explain the increasing patent activity of recent years.
More information on that report at http://www.i-micronews.com/mems-sensors-report/product/emerging-mems-patent-investigation-2014.html
Proliferation of cameras for imaging and sensing is driving CMOS image sensor (CIS) growth.
More information on that report at : https://www.i-micronews.com/report/product/status-of-the-cis-industry-2018.html
From almost zero to a multi-billion dollar market in three years!
Apple introduced the iPhone 5s in 2013, after acquiring Authentec a year earlier. Since then, fingerprint sensors have been massively adopted, and the volumes of sensors shipped into the consumer market have grown incredibly. At first, the sensors were a convenience and protection feature for unlocking phones. However, they are now shifting into a security feature for online identification and mobile payment in an increasing number of smartphones.
From 23 million units in 2013, 689 million fingerprint sensors for smartphones were sold in 2016. This is an incredible 210% compound annual growth rate (CAGR) between 2013 and 2016! The 2016-2022 timeframe will see a more reasonable, but still impressive, 19% CAGR.
Fingerprint sensing is becoming a mandatory feature on every smartphone, adding a lot of value. However such an increase in volume is always followed by strong cost pressure, and this is what has happened over the last three years. The average cost of a fingerprint sensor has decreased from around $5 in 2013 to $3 in 2016, and even less for low-end technologies. And the pressure hasn’t gone away. Current technologies have now reached maturity, and are threatened by new technologies, which need lower cost to gain momentum. This is the case for ultrasonic detection, for instance.
For more information please visit our website: http://www.i-micronews.com/reports.html
Microphones, Microspeakers and Audio Solutions Market and Technology Trends 2019Yole Developpement
The voice-based world is shaking up the audio industry, making it worth $20.8B in 2024.
More information on https://www.i-micronews.com/products/microphones-microspeakers-and-audio-solutions-market-and-technology-trends-2019/
Mems and sensors packaging technology and trends presentation held by Amandin...Yole Developpement
MEMS & sensors transitioning towards 3 main Hubs…
The inertial hub
Examples of MEMS companies with a «sensors integration» road (e.g., mCubewith iGyro, Spectral Engines with integrated spectrometer, Bosch with environmental combo sensors, AMS with optical combos, InvenSense with IMUs ….
MEMS and Sensors for Automotive 2017 Report by Yole Developpement Yole Developpement
How will sensor technology shape the cars of the future? We are only at the very beginning of a bright future for sensor providers – be prepared for the golden age of the automotive sensor industry.
THE REBORN AUTOMOTIVE SENSOR MARKET WILL BE WORTH MORE THAN $20B BY 2022
In a global automotive market worth than US$2.3T, the little world of automotive sensors has recently been shaken up by the emergence of electric and autonomous cars. Despite just 3% growth in the volume of cars sold expected through to 2022, Yole Développement (Yole) expects an average growth rate in sensors sales volumes above 8% over the next five years, and above 14% growth in sales value. This is thanks to the expanding integration of high value sensing modules like RADAR, imaging and LiDAR. The current automotive sensing market groups MEMS and classic active sensors such as pressure, tire pressure monitoring systems (TPMS), chemical, inertial, magnetic, ultrasonic, imaging, RADAR and LiDAR. We estimate that this market is worth US$11B in 2016 and is expected to reach US$23B by 2022. This is mainly due to the boom in imaging, RADAR and LiDAR sensors, which will respectively be worth US$7.7B, US$6.2B and US$1.4B by 2022. Among classical sensors like pressure, chemical and magnetic sensors, the impact of electric vehicles will remain small in the short term. However, the advent of electrical vehicles will greatly change the amount and the distribution of pressure and magnetic sensors within the car in the longer term. More electric cars will mean fewer pressure sensors and a surge in magnetic sensors for battery monitoring and various positioning and detection of moving pieces. Finally, we believe that the automotive world is experiencing one of the fastest-changing eras in its evolution ever. Sensor suppliers are now engaged in a race where they need to be prepared for the golden age of the automotive world.
This report describes the applications, technologies, and players associated with the automotive sensor market’s impending changes.
More information on that report at http://www.i-micronews.com/reports.html
Status of the CMOS Image Sensor Industry 2017 - Report by Yole DeveloppementYole Developpement
New applications are transforming the market and technology playing field for CMOS image sensors
It’s ten years down the line from the initial Apple iPhone that started the smartphone era. Since then, CMOS imaging has benefited from huge market demand and a technology-driven environment, resulting in an $11.6B industry in 2016. Photography and video is the main application, which is totally transformed by new use cases, new devices and new technologies.
The mobile market is key for the CMOS image sensor (CIS) industry. Despite saturation in the number of handsets, the CIS market has been able to maintain a 10.5% compound annual growth rate (CAGR) for the 2016-2022 period due to the introduction of dual and 3D cameras. These additional cameras are changing the industry’s drivers from form factor and image quality to interactivity.
Penetration into higher added value markets such as automotive, security and medical shows that CIS products are transforming use cases across the board. CIS technology adoption allows greater automation levels at low cost, while using newly available computing architectures such as deep learning. The CMOS image sensor industry is currently in a virtuous circle where a new technology is providing true customer value.
Acoustic MEMS and Audio Solutions 2017 - Report by Yole DeveloppementYole Developpement
The audio business is about to experience profound changes
Audio is becoming a key function of multiple existing and new products that increasingly has to be analyzed as a complete landscape compared to independent devices. From mobile phones to cars, from home assistants to drones, audio products like microphones, speakers and audio integrated circuits (ICs) are essential for all the new systems driving consumer electronic markets. The total audio business was worth more than $15B in 2016. With a compound annual growth rate (CAGR) close to 6%, in 2022, the audio device market will be worth $20B and become a key feature in all the applications it is involved in. And there’s clearly room for more added value in the audio supply and value chain, as well as other significant changes.
In 2016, Yole estimates that the MEMS microphone market has almost reached the $1B milestone, with a value of $993M. Combined with the $700M electret condenser microphone (ECM) market, now the acquisition of sound is almost a $2B value market. The µspeaker market is estimated to be worth $8.7B, (meaning speakers less than two inches in diameter). In addition to these two visible elements of the audio chain, the audio IC market, which includes codecs, digital signal processors (DSPs) and amplifiers, is estimated to be worth $4.3B in 2016.
This new Yole report describes the evolution of the three audio functions, microphones, speakers and audio ICs, technical trends, as well as the evolution of the strategies of the main players to capture a larger part of this fast-growing field.
For more information about our report, please visit our website: https://www.i-micronews.com/reports.html
This document provides a summary of an emerging MEMS patent investigation report by Knowmade and Yole Développement. The report analyzes over 1,300 patent families related to 7 types of emerging MEMS technologies: AOC MEMS, Autofocus, Chemical Sensors, Micro-Speakers, Scanning Micro-Mirrors, Si Microfluidics, and Ultrasonic MEMS. For each technology, the report provides an overview of the market and key patents, including rankings of major patent applicants and analysis of their patent portfolios and networks. It also includes timelines of patent publications and key findings on the leading IP holders for each emerging MEMS technology.
Machine Vision for Industry and Automation 2018 Report by Yole DeveloppementYole Developpement
Machine vision is at the heart of the automation revolution.
More information on that report at https://www.i-micronews.com/report/product/machine-vision-for-industry-and-automation-2018.html
3D Imaging & Sensing 2018 Reports by Yole DeveloppementYole Developpement
The iPhone X initiated a trend. What happens next?
More information here: https://www.i-micronews.com/category-listing/product/p3d-imaging-sensing-2018.html
Silicon Photonics 2018 - Report by Yole Developpement Yole Developpement
Fueled by increasing internet traffic thanks to social networks, video and gaming content, increasing bandwidth will be required for inter- and intra-data center communications. As a short term answer to this possible bandwidth congestion, new photonics technology for transceivers is still pulled onto the market by Google, Apple, Facebook, Amazon and Microsoft (GAFAM) and now by Baidu, Alibaba and Tencent (BAT) in China.
More information on that report at http://www.i-micronews.com/reports.html
Gas and Particle Sensors 2018 - Technology, Industry, and Market Trends repor...Yole Developpement
Air quality is breathing life into the sensor market!
More information on : https://www.i-micronews.com/category-listing/product/gas-and-particle-sensors-2018.html
Status of the CMOS Image Sensor Industry 2016: New Dynamics in Market and Tec...Yole Developpement
New functions are pushing change in CMOS image sensors, boosting the market toward $18.8B in 2021 at 10.4% CAGR
Beyond $10B: The CMOS image sensor industry keeps growing at high pace
Driven by renewed mobile and automotive applications, the CMOS image sensor (CIS) industry is expected to expand at a compound annual growth rate (CAGR) of 10.4% from 2015 to 2021, reaching US$18.8B market value by 2021.
Yole Développement expects sustained growth of the CMOS image sensor industry for the next five years. Increasing camera content in smartphones will more than offset slower smartphone volume growth. The trend for dual and 3D cameras will have a major impact on CIS volumes. While it is too early to fully describe the strategy of the main actors yet, some products are already on the market. The 2016 report comprehensively covers key market and technology choices.
One big story this year is the consumer market, which is recovering from the total collapse of digital photography. While action cameras seem to have reached a ceiling, new applications such as drones, robots, virtual reality and augmented reality are ready to rejuvenate this emblematic market. The Automotive camera market has established itself as a key growth market for CIS. The Advanced Driver Assistance (ADAS) trend is further increasing pressure on vendors to provide sensors beyond their current technical capabilities. Image analysis is the new frontier and early usage of artificial intelligence is catching people’s imagination. We are therefore in the middle of an explosive growth pattern that will not slow down before 2021. An exceptionally high 23% CAGR is predicted in automotive for the 2015-2021 period.
- The uncooled infrared imager and detector market is attracting interest from big companies like LG Innotek, Amazon, and Caterpillar as these companies launch new products using these technologies.
- Annual shipments of microbolometers are expected to reach 2 million units by 2021, up from 1.3 million units shipped in 2017, driven by new applications.
- The top 3 players in the microbolometer market in 2017 were FLIR with 66% market share, ULIS with 13% share, and Seek Thermal with 12% after shipping over 100,000 units. The infrared detector market remains more conservative with the top 5 players holding around 80% of the $252 million market
Gas Sensors, Detection of Particles, 3D Images…: What are the Next opportunit...Yole Developpement
MEMS is a semiconductor technology thus enabling miniaturization and lower cost manufacturing of existing products
A psychological survey in 1994 by Hatwell (Hatwell, Y. (1994). Traitéde psychologie expérimentale. Paris, P.U.F.) showed that 83% of our external world perception is through our vision.
Thus a high quality image is highly valued by the user –today Smartphone bill of materials is $10 for the camera module.
The next senses we use are Audio and Smell. Thus, we believe next innovation in MEMS & Sensors will be for microphones.
Gas sensors could be the next one to be valued for consumer applications.
Complete integration has been achieved at sensor level
Strong miniaturization race
Still some developments on power consumption, advanced packaging
Major developments at Software level to achieve sensor fusion
Accurate data acquisition
Precise tracking within the environment
After decreasing die size, improvements are now focused on packaging issues and use of through silicon vias (TSVs) for instance
An ever growing market
Imaging is highly valued
The imaging industry stopped the low cost/high integration model by increasing the pixel size and thus the die size
Interesting way for the MEMS industry to gain value:
More integration at environmental level seems a good opportunity
Pressure + Microphone
Add Particles & Gas detection (market pull)
High power consumption
•Limited access to sensors
•Players: Qualcomm, Samsung, Apple, etc…
•Application processors and MCU manufacturers try to override sensor hubs and access the fullfunctionality of the sensors. It requires allocated resources, may be not as optimized as a sensor hub provides
Deep access to the functionalities of the sensor
•Low power consumption
•Optimized performance
•They try to add value to their sensors by providing sensor hub, adding software and promoting use case,showing there al added-value offer by their sensors combined with their software.
A great competition to gather value at a higher level in the system, because value is in the software, not in the hardware.
More information on that report at http://www.i-micronews.com/reports.html
New Detection Principles & Technical Evolution for MEMS & NEMS 2014 Report by...Yole Developpement
This report provides an overview of current and future MEMS and NEMS detection principles and technical challenges. It discusses trends in areas like inertial sensors and uncooled infrared imaging. New approaches are identified to reduce costs and sizes, such as 3D integration, improved manufacturing processes, and novel detection methods. Emerging areas like M&NEMS, suspended microchannel resonators, and quartz crystal microbalances are profiled. The market for devices using new approaches is projected to grow significantly in coming years.
Status of the Camera Module Industry 2019 – Focus on Wafer Level Optics repor...Yole Developpement
This document provides an overview and analysis of the camera module industry in 2019 with a focus on wafer level optics. It includes the following key points:
- The report objectives are to provide market data, analysis of the industry ecosystem and value chain, and insights into technology trends in areas like wafer level optics.
- The methodology involves aggregating information from various sources to build a bottom-up forecast model for metrics like revenue, shipments and market share.
- The camera module industry ecosystem includes players that supply image sensors, lenses, autofocus and optical image stabilization components, and camera module assembly, with a total revenue of $27.1 billion in 2018.
The one million robotic vehicle milestone will be reached by end of the decade: The industrial phase has been launched.
More information on: https://www.i-micronews.com/products/sensors-for-robotic-mobility-2020/
Similar to From Technologies to MarketSTATUS OF THE MEMS INDUSTRY.docx (20)
You have been asked to explain the differences between certain categ.docxshericehewat
You have been asked to explain the differences between certain categories of crimes. For each of the following categories of crime, provide a general definition of the category of crime and give at least two detailed examples of specific crimes that fall into each category:
Crimes against persons
Crimes against property
Crimes of public morality
White-collar crime
Cyber crime
Then for the following scenarios, discuss the categories of crimes involved in each scenario and explain the specific criminal charges that you would apply to each scenario. You can utilize the Library, Internet and other resources to research the criminal statutes of a state of your choice in order to help you determine which criminal charges should be applied:
David S. was running around a public park without his clothes on, singing and shouting loudly, at 3 in the morning. Police arrived after neighbors called to complain. They saw David S. tipping over a garbage can and when they shouted for him to stop, he threw the garbage can into a car, breaking one of its side windows. The police arrested David S, His blood alcohol level was twice the legal limit.
Gary M. was arrested by the FBI when he showed up at a local mall to meet a "14 year old girl" for a date, which he arranged over the Internet. He didn't know that the "14 year old girl" was actually a 35-year old male FBI agent.
Elaine R. was an accountant working for a large corporation. She had been falsifying the accounting records and sending some of the corporate funds to her own bank accounts in an offshore bank. The corporation found out what she had been doing and reported her to the police.
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You have been asked to help secure the information system and users against hacking attempts. Complete the following:
Take this opportunity to describe the 4 different approaches and techniques a hacker would use to steal the organization's data.
For each approach, discuss what methods can be used to circumvent the attack, prevent it, or minimize the disruption caused by the event.
Include 2–3 pages of material covering the 3 discussion areas in Section 5 of your Key Assignment document (including the completed previous 4 sections).
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You have been appointed as a system analyst in the IT department of a selected university in Malaysia. You are responsible to develop an online admission system for the university. For this reason, you have to do an analysis and design to model the online system that could be developed later. Identify the requirements for the system and produce a software requirement specification (SRS) to document all the details.
.
You choose one and I will upload the materials for u.Choose 1 of.docxshericehewat
You choose one and I will upload the materials for u.
Choose 1 of the following 3 questions, and answer it in a paper of no more than 1000 words. Submit that paper by
November 4
at midnight PST in the appropriate IICS515 Moodle dropbox.
4. Monday October 27 lecture
Themes: Global Media Governance and Regulation; The Internet and Digital Media
Readings: Chapter 5, “The Medium: Global Technologies and Organizations,” and Chapter 6, “The Internet”
In this lecture, we discussed the definition and history of communication rights as one element or dimension of communication policy, and used it to bring to life a subject—policy—that sometimes seems abstract and technical in nature.
In doing so, we noted the evolution from a “negative” rights view of communication rights, as expressed in Article 19 of the United Nations Universal Declaration of Human Rights in 1948, to the more “positive” definition of communication rights explained in the lecture content derived from the work of Marc Raboy (and Jeremy Shtern).
Remember that “negative” does not mean “bad” here nor “positive” good. “Negative” and “positive” rights—which are ways of thinking about all human rights, not just communication rights—are instead ways of characterizing the orientation of rights toward individuals and society. Negative rights are defined in terms of freedom
from
things, and positive rights in terms of freedom
to
have or do certain things. Both negative and positive rights derive their legitimacy from fundamental and universal consideration of what it means to be human and to be treat people as human beings.
In our case study at the end of the lecture, we then discussed how a “positive” approach to communication rights could help us better understand and perhaps act against cyberbullying.
In your paper, and in your own words, define “communication rights,” and then briefly explain the evolution from the negative to the positive rights approach to communication rights.
Once you have done that, and with reference to the cyberbullying pamphlet from the Canadian government attached to your lecture notes, demonstrate how a “positive” rights approach to communication rights can help us better understand and prevent cyberbullying. In other words, what are the limitations of approaching cyberbullying from a “negative” rights perspective, and what does a “positive” approach to communication rights do to help us understand and perhaps act against cyberbullying?
Cyberbullying is a problem in international communication that affects many, especially vulnerable teenagers, as illustrated in the case of the late Amanda Todd (from British Columbia).
You do not need to use the McPhail chapter here, as it is not directly relevant to this question. Rather, draw on the lecture notes and the podcast as your sources here.
5. Wednesday October 29 lecture
Themes: Global Media Case Study in Media and the Arab World; Orientalism
Readings: Said, Edward (1978)..
You are Incident Commander and principal planner for the DRNC even.docxshericehewat
You are Incident Commander and
principal planner for the DRNC event. As you commence the planning process, consider the two fundamental types of error committed by policy makers in their reliance on intelligence reports to formulate policy. What would you do to minimize these errors from occurring and adversely affecting your policy decisions?
Min 500 words, In text references, APA format
.
You DecideCryptographic Tunneling and the OSI ModelWrite a p.docxshericehewat
You Decide
Cryptographic Tunneling and the OSI Model
Write a paper consisting of 500-1,000 words (double-spaced) on the security effects of cryptographic tunneling based on an understanding of the OSI (Open Systems Interconnect) model (Review the OSI Simulation in the Week 3 Lecture).
Provide input on the type of cryptographic tunneling protocols (e.g., L2TP, IPSEC, SSL, etc.) that may be used, the layer(s) of the OSI at which each operates, and also recommend how they may be implemented. Cryptographic tunneling is inherent in building any common virtual private network (VPN).
.
You are working as a behavioral health specialist in a neurological .docxshericehewat
You are working as a behavioral health specialist in a neurological research center and are responsible for participant education. There are three participants to choose from: Stephanie has experienced a stroke; Jamie has experienced an amputation; and Robert has experienced a traumatic brain injury. Choose one participant to work with.
We are chosing Robert and his traumatic brain injury
Prepare
a 1,000- to 1,200-word paper that explains the functions and limitations of neural plasticity in the participant's recovery process.
Include
two to three peer-reviewed sources.
.
You are to write up a reflection (longer than 2 pages) that discusse.docxshericehewat
You are to write up a reflection (longer than 2 pages) that discusses what happened in the prisoner's dilemma activity we did in class on Monday, April 20. Some points to cover include why you took the action you took, what you thought others were going to do and why, and what actually happened. And what implications this has for situations in the work place where individuals may take different actions than might be the most beneficial for the team as a whole.
.
You can only take this assignment if you have the book Discovering t.docxshericehewat
You can only take this assignment if you have the book Discovering the Humanities. This homework needs to be done by reading Chapter Nine. It needs to be a minimum of 150 to 200 words. It needs citations and referances.
Western art and architecture has influenced and been influenced by cultures in India, China, and Japan.
Part I:
Using examples provided from this unit's reading, discuss how the artistic culture in either India, China, or Japan (select one) exhibits influence from Western cultures. Discuss, too, the reciprocal connection, specifically explaining how India, China, or Japan influenced Western art and architecture.
Part II:
Add to your post by discussing the similarities and differences between art from your selected culture (India, China, or Japan) and ancient Greek sculpture. Use examples and images to support your ideas.
.
You are to interview a woman 50 and older and write up the interview.docxshericehewat
You are to interview a woman 50 and older and write up the interview
in a 5 page MLA paper. You ask questions intended to elicit information about her life
and how it relates to the history of women in the late 20th century. Your paper
should be normal margins, 10-12 pt. font, typed and double-spaced. It should
include the approximate age of your interviewee—it does not have to include her
name.
EXAMPLE QUESTIONS ..........
What’s your first, most vivid memory? Going to my grandma and grandpa’s farm and making grandma walk me out to the outhouse for fear of a mean bannie rooster would peck me to death. He was afraid of grandma.
What was the apartment or house like that you grew up in? How many bedrooms did it have? Bathrooms? I lived with my mother and father mostly in a house in the city that had 2 bedrooms, 1 bathroom. I had to share a room with my older brother that was upstairs.
What was your bedroom like? Very simple. It had 2 beds made of feathers, a desk with a lamp and one dresser for our clothes. Dallas (my brother got the bottom 2 and I got the top 2)
Can you describe the neighborhood you grew up in? Not really. Every chance I got I went to grandma and grandpas and spent time with them. They lived deep in the country. I had one friend out there that lived about 3 miles away on the next farm. His name was Carl.
Tell me about your parents. Where were they born? When were they born? What memories do you have of them? Both parents were born in Richmond, IN. Memories include more of my mother than my father. He was a drunk that stayed out all the time. He only came home when he was ready to pass out or to beat us.
Who was more strict: your mother or your father? Do you have a vivid memory of something you did that you were disciplined for? Since mom was the main one around I would say that she was more strict. I remember one instance when I was about 16 and mom had kicked me out of the house because she was forced to work with dad being gone all the time and I was telling her that I no longer wanted to take care of my little brother because I felt like I was his mother rather than her and that I didn’t want to do anymore of the house work. It was her house she should have to clean it. She kicked me out. I was sitting on the porch crying and dad came home (sober for once) and sat on the porch with me, got me calmed down and offered to give me a ride to grandma and grandpa’s.
Did your parents have a good marriage? No they had a horrible marriage.
How did your family earn money? How did your family compare to others in the neighborhood – richer,
poorer, the same? My family earned money from my mother working in a diner. Dad worked in a mill but we rarely saw his money. We did alright but I would say that we were on the poorer end of society.
What kinds of things did your family spend money on? The necessities and that was it.
How many brothers and sisters do you have? When were they born? What memories do yo.
You are to complete TWO essays and answer the following questions. .docxshericehewat
You are to complete TWO essays and answer the following questions. Here are your questions:
1) How has the information provided in this class changed or reinforced your perspective on an issue(S). Please provide details.
2) What do you believe is the biggest challenge facing our nation and why? Be specific and detailed. What can be done to address this challenge? Be realistic and detailed in your responses.
750 - 800 words each essay
no plagiarism
.
You are the vice president of a human resources department and Susan.docxshericehewat
The vice president of HR wants to conduct a performance evaluation of Susan, who has worked as an executive assistant for one year. While Susan completes assignments efficiently and is well-liked, the vice president wants her to be more proactive in taking on additional responsibilities through professional development opportunities. The performance evaluation will provide feedback on Susan's performance, set goals for the future, and determine compensation. It will address areas like professional development, job duties, communication, work relationships, and recommendations for pay.
You are the purchasing manager of a company that has relationships w.docxshericehewat
You are the purchasing manager of a company that has relationships with many different suppliers. All information about orders, shipments, etc. is still manually exchanged. You have discussed incorporating Internet technologies to help manage the supply chain.
In 1-2 pages, summarize the advantages of using Internet technologies versus traditional methods in supply chain management.
.
You are to briefly describe how the Bible is related to the topics c.docxshericehewat
You are to briefly describe how the Bible is related to the topics covered in the course. An integration of the Bible must be explicitly shown, in relation to a course topic, in order to receive points. In addition, at least two other outside scholarly sources (the text may count as one) should be used to substantiate the group’s position.
.
You are the manager of an accounting department and would like to hi.docxshericehewat
The accounting department manager wants to hire a managerial accountant to focus on internal accounting. However, the CEO is not convinced such a position is needed. A 2-page memo should explain that an internal accounting system tracks financial transactions within a company, provides timely financial reports for management decision making, and ensures compliance with internal controls and procedures.
You are the new chief financial officer (CFO) hired by a company. .docxshericehewat
You are the new chief financial officer (CFO) hired by a company. The chief executive officer (CEO) indicates that in the past, there was little rhyme or reason for the prior CFO to approve or disapprove of large capital projects or investments that various managers proposed. You mentioned to the CEO that there are three primary methods of capital budgeting, and they are as follows:
Simple payback method
Net present value method
Internal rate of return (IRR) method
Discuss the following topics on the Group Discussion Board and write a group paper between 700–850 words. Assign topics to be written by each group member and compile it all together before submitting your group paper:
A company's cost of capital and how it is calculated
What the marginal cost of capital is and how it differs from the weighted average cost of capital
.
You are the manager of a team of six proposal-writing professionals..docxshericehewat
You are the manager of a team of six proposal-writing professionals. You are tasked with completing one 50 page formal proposal as well as a 1-2 page summary advocating funding for a new sports arena. Your supervisor, a member of the senior leadership team, wants to know how you plan to successfully accomplish the assignment. Prepare a PowerPoint Presentation to your supervisor that conveys the following information:
As manager, how will you organize the work to prepare a proposal?
What tasks will each professional be assigned and why?
What three or four communication tools will you propose be used to effectively articulate the proposal and why? (For example, formal paper-based, PowerPoint Presentation, blog, Twitter, Facebook, LinkedIn, etc.)
.
This document provides an overview of wound healing, its functions, stages, mechanisms, factors affecting it, and complications.
A wound is a break in the integrity of the skin or tissues, which may be associated with disruption of the structure and function.
Healing is the body’s response to injury in an attempt to restore normal structure and functions.
Healing can occur in two ways: Regeneration and Repair
There are 4 phases of wound healing: hemostasis, inflammation, proliferation, and remodeling. This document also describes the mechanism of wound healing. Factors that affect healing include infection, uncontrolled diabetes, poor nutrition, age, anemia, the presence of foreign bodies, etc.
Complications of wound healing like infection, hyperpigmentation of scar, contractures, and keloid formation.
Walmart Business+ and Spark Good for Nonprofits.pdfTechSoup
"Learn about all the ways Walmart supports nonprofit organizations.
You will hear from Liz Willett, the Head of Nonprofits, and hear about what Walmart is doing to help nonprofits, including Walmart Business and Spark Good. Walmart Business+ is a new offer for nonprofits that offers discounts and also streamlines nonprofits order and expense tracking, saving time and money.
The webinar may also give some examples on how nonprofits can best leverage Walmart Business+.
The event will cover the following::
Walmart Business + (https://business.walmart.com/plus) is a new shopping experience for nonprofits, schools, and local business customers that connects an exclusive online shopping experience to stores. Benefits include free delivery and shipping, a 'Spend Analytics” feature, special discounts, deals and tax-exempt shopping.
Special TechSoup offer for a free 180 days membership, and up to $150 in discounts on eligible orders.
Spark Good (walmart.com/sparkgood) is a charitable platform that enables nonprofits to receive donations directly from customers and associates.
Answers about how you can do more with Walmart!"
This presentation was provided by Steph Pollock of The American Psychological Association’s Journals Program, and Damita Snow, of The American Society of Civil Engineers (ASCE), for the initial session of NISO's 2024 Training Series "DEIA in the Scholarly Landscape." Session One: 'Setting Expectations: a DEIA Primer,' was held June 6, 2024.
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This is part 1 of my Java Learning Journey. This Contains Custom methods, classes, constructors, packages, multithreading , try- catch block, finally block and more.
Strategies for Effective Upskilling is a presentation by Chinwendu Peace in a Your Skill Boost Masterclass organisation by the Excellence Foundation for South Sudan on 08th and 09th June 2024 from 1 PM to 3 PM on each day.
Reimagining Your Library Space: How to Increase the Vibes in Your Library No ...Diana Rendina
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This slide is special for master students (MIBS & MIFB) in UUM. Also useful for readers who are interested in the topic of contemporary Islamic banking.
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From Technologies to MarketSTATUS OF THE MEMS INDUSTRY.docx
1. From Technologies to Market
STATUS OF THE
MEMS INDUSTRY
Get high for MEMS
2018
2
ELECTRONIC MEGATRENDS : IMPACT ON THE 2023
SENSOR & ACTUATOR
MARKETS
Smart Automotive Mobile 5G
Hyperscale
Data Centers
AR/VR AI/ML Voice Processing Healthcare Industry 4.0
Sensors &
actuators value:
$2.3B
Sensors &
3. $5,200M
$12,400M
CAGR +16%
$2,200M
CAGR +15%
Radar/ultra sonic
3D & LiDAR sensors
Chemical sensors
Magnetic
Pressure sensors
Imaging sensors
Inertial
Audio
SENSORS FOR THE SMART AUTOMOTIVE INDUSTRY -
ECOSYSTEM
2017 - 2023 forecast
The two main
growth areas are
imaging and radar,
lidar, driven by
automation
13. S
w
it
c
h
F
il
te
r
Bosch BME680
FLIR Lepton One
Infineon microphone
ST pressure sensorInvenSense
MPU9250
Debiotech micro
pump
Texas Instruments DLP
Avago-Broadcom
FBAR Filter
Spiromax Patek
Philippe
20. to electromagnetic waves sensing:
the unavoidable mutation of MEMS (and sensors)
80-90s years: only mechanical
movement / pressure / shock can
be sense by MEMS.
90-2000s: rotation sensing and
visible light management (DLP) are
now accessible to MEMS
technologies.
2000-15s: sound and IR wavelength
are accessible to MEMS
technologies.
2015-future: MEMS will sense and
manage a wide range of waves:
ultrasonic / directive sounds / ultra
sonic / RF / hyperspectral …
Pressure
Acceleration Yaw
21. Infra redVisible
Sound
Radio frequency
IR, Visible
Hyperspectral Ultra sound
Sound Multi-parameters
DETECTING AREA
MEASURING AREA
GLOBAL ENVIRONMENT PERCEPTION AREA
Sensor fusion
A.I.
Pa
ra
m
e
te
rs
A
re
a
s
Gas Odors Multi spectral
27. $0
$20 000
$40 000
$60 000
$80 000
$100 000
$120 000
U
S
$
M
MEMS & Sensors forecast 2017-2023
SEMICONDUCTOR-BASED SENSORS AND ACTUATORS
FORECAST, BY DEVICE IN US$M
“Others” includes fiber-optic sensors, particle sensors, new
sensor developments (such as NEMS)
From $50+B in 2018 to $100+B in 2023!
The MEMS
and sensors
market will
31. Sensors
value/system: 6%
Sensors value:
$30M
Plane ASP: $100M
Sensor ASP: $1,000
Car ASP: $30,000
Sensor ASP: $10 Smartphone ASP: $500M
Sensor ASP: $2
Sensors value
will grow
(autonomous
vehicles)
Sensors value will grow
(3D sensing)
10 years of R&D 5 years of R&D 6 months-
1year of R&D
http://www.yole.fr/
http://www.yole.fr/
32. 10
MEMS IS STILL AN INNOVATIVE TECHNOLOGY –
STARTUPS TO FOLLOW
R&D center, Finland
MEMS hyperspectral
Israel, 2015
ADAS-based FIR camera
Austria, 2014
MEMS speakerUS, 2017
MEMS gas
chromatography/e-nose
Finland, 2016
MEMS resonator
US, 2013 – now TDK
MEMS ultra sound transducer
US, 2016
MEMS micro switch
US, 2014
33. MEMS OIS
US, 2009
Piezo microphone
US
MEMS FTIR
China, 2014
MEMS LidarFrance, 2014
IR MEMS emitter for gas
sensing
US, 2014
Ingestible sensor
NL, 2010 – now
Infineon
MEMS mirrors
US, 2013
MOEMS lidar
Israel, 2016
MEMS lidar
These MEMS startups are today paving the way to new type of
49. our present and future: smart automotive
(electrification, autonomous driving, connected
cars, etc.), mobile (i.e. for new and improved
social interaction, augmented reality experience),
5G for increased bandwidth, hyper-scale data
centers to cope with more and more data through
the internet, AR/VR (augmented reality/virtual
reality) for new immersive experiences, AI/ML
(artificial intelligence/machine learning) for smart
human-machine interfaces (smart homes, robotic
cars, etc. with more voice processing intelligence),
healthcare (for a healthier life), and industry 4.0
(connected factories with ubiquitous sensors for
more efficient production). Megatrends offer huge
opportunities for electronics, especially sensors
and MEMS. We estimate that the total megatrends
business impact on the MEMS, sensors, and
actuators market will be $82B by 2023.
If we consider the mobile megatrend as an example,
the drivers are: 5G’s arrival (more bandwidth),
improved displays (with higher resolution, better
video quality, enhanced contrast/brightness), new
design, augmented reality, and smaller form factor
with more sensing capabilities. These megatrends
facilitate a dramatic evolution for MEMS and
sensors. At the smartphone level, there will be
a profusion of new sensors: inertial sensors, 3D
optical sensors, IR sensors, environmental sensors,
fingerprint sensors, spectral sensors, and optical
MEMS (such as autofocus and/or pico projection).
Also, for reducing devices’ form factor, wafer-level
packaging (fan-out) will be increasingly used.
When 5G arrives, there will also be an increasing
50. need for RF filters, and the MEMS sector with the
largest growth will be RF MEMS (BAW filters).
Besides MEMS and sensors, 5G’s operating
frequency will require new materials such as GaN
on SiC, GaN on Si, SiGe (low noise amplifier), and
GaAs (power amplifier).
STATUS OF THE MEMS INDUSTRY 2018
Market & Technology report - May 2018
MEGATRENDS ARE DRIVING DEMAND FOR MORE MEMS
AND SENSORS
Megatrends are invigorating the MEMS industry.
WHAT’S NEW
Get the sample of the report
on www.i-Micronews.com
•Globalmarketmegatrends,plus
focusonsensormegatrends
•Updatedglobalsensormarket
forecastinvalueandunitsfor
MEMS,aswellasCMOSimage
sensors,magneticsensors,gas
sensors,fingerprintsensors,optical
sensors,spectralsensors,andRF
devices
•UpdatedforecastforRFdevices
andopticalsensors(3Dsensing,
spectral sensors)
•Updatedpressuresensorforecast
basedexclusivelyonthelatest
priceestimateandfirst-level
52. AR/VR AI/ML Voice processing Healthcare Industry 4.0
$2.3B $4.6B$50M
$53B$20.5B
$1.4B
RF MEMS ARE BOOSTING THE GLOBAL MEMS MARKET
Yole Développement estimates the MEMS market will
experience a 17.5% growth in value and a 26.7% growth
in units, with consumer having the biggest share (more
than 50% in value). The good news is that almost all
MEMS devices will contribute to this growth.
Inkjet heads will grow, with the consumer market
representing more than 70% of printhead market
demand. This market recorded its first signs of
recovery in the first half of 2017, a trend confirmed
in the second half of the year. This recovery was
noticed both in disposable and fixed printheads.
Most consumer players show discernable growth:
for example, HP has recorded a 2% growth in
consumer printer revenue since 2016, and Canon
has confirmed a progression in sales for inkjet
printers, with strong demand in Asia.
Numerous pressure sensor applications
contribute to market expansion. It is interesting
to see that, although it is one of the oldest MEMS
technologies, pressure sensor keeps growing. In
automotive, pressure sensors have the highest
number of applications, with many advantages
53. STATUS OF THE MEMS INDUSTRY 2018
FROM DETECTION TO ENVIRONMENT AWARENESS,
MEMS WILL EVOLVE FROM A
SENSING FUNCTION TO GLOBAL PERCEPTION
CAPABILITIES
MEMS and sensors were first developed and used
for “basic” physical sensing like shock and pressure.
Next, acceleration and rotation sensors were
developed, requiring a strong R&D effort in design.
As more effort was put into R&D, MEMS shifted
from physical sensors to light management (i.e.
micro-mirrors), and then to infrared sensing
(microbolometers). This paved the way for the
first sensor able to transcend human senses. From
physical/light, MEMS development has also been
driven by sound with microphones.
Today, MEMS and sensors developments are aiming
far beyond human limits, with sensing capabilities in
ultrasonic, hyperspectral, and radiofrequency. We
can even imagine a next generation of sensors used
for emotion/empathy sensing.
This will be possible thanks to the evolution of
sensors through three phases:
such as, resistance to toxic exhaust gas and harsh
environments, higher accuracy, and the development
of intelligent tires that deliver more information on
54. tire status (especially for future autonomous cars). For
consumer, mobiles and smartphones still account for
90% of pressure sensor sales, and cost reduction is the
priority vs. size reduction because size is already very
small. Although there are no big “killer” applications
expected in the future, new applications are emerging:
smart homes, electronic cigarette, drones, and
wearables, to name several.
MEMS microphones have been in the spotlight for
a long time and have expressed one of the highest
CAGRs of any MEMS technology over the last five
years. In the range of $105M in 2008, the MEMS
microphone market was worth $402M in 2012 and
reached the $1B milestone in 2016. Currently, almost
4.5B units are shipped annually.
Consumer is still inertial MEMS’ largest market, but
price pressure is tough and competition is fierce. The
smartphone and tablet market is still a difficult one
for stand-alone accelerometer, competing with combo
sensors (small size, low power, multi-purpose). Stand-
alone accelerometers are used in low-end smartphones
and can also be used with combo sensors to manage
a few features (i.e. UI rotation/fluidity). Robotic cars
are gyroscopes’ new application for dead reckoning
function. High-end performance devices are needed,
but MEMS could take a share of the business. Lidar for
autonomous vehicles is also an intriguing application
for MEMS mirrors.
Step by step, the uncooled IR imager market keeps
growing. This is due to a continuous price decrease
over the last few years stemming from new
technologies such as WLP and silicon lenses, as well as
55. increasing acceptance from customers.
For microfluidics, many existing developments are
fueling silicon’s development. In early 2018, Illumina
released a new DNA sequencer, the iSeq 100. Unlike
Illumina’s usual technology, this one works with a
semiconductor (CMOS) chip.
Driven by the complexities associated with the move
to 5G and the higher number of bands it brings, there
is an increasing demand for RF filters in 4G/5G, making
RF MEMS (BAW filters) the largest-growing MEMS
segment. This market will soar from US$2.3B in 2017
to US$15B in 2023. Excluding RF, the MEMS market
will grow at 9% over 2018 - 2023. With RF MEMS, the
CAGR is 17.5%.
There are also plenty of new MEMS in development:
piezo MEMS (auto-focus, inkjet heads), FTIR, portable
electronic noses, ultrasound MEMS for medical imaging
and industrial applications, micro switches, and more.
These are several MEMS developments that will fuel
this business’s.
In 2017, The biggest surprise (though not entirely
unexpected) was Broadcom becoming the #1 MEMS
player. As growth continues for RF, driven by an
increasing number of filters/phones and by the front-
end module’s increasing value, it is likely that RF players
will still dominate the top 2018 rankings.
Most players showed positive growth in 2016 - 2017.
Established players (Bosch, STMicroelectronics, TI,
HP) were “shaken” by Broadcom’s growth but still
performed well: for example, Bosch enjoyed growth
of approximately $100M. IJH players also had a good
56. overall performance compared to previous years.
SiTime displayed the most impressive growth
(exceeding 100%). Other MEMS players posting
significant growth are: FormFactor, benefiting from
the semiconductor business’s excellent health; and
ULIS, with uncooled IR imaging still growing annually
into multiple applications (consumer – thermography,
firefighting, night vision, smartphones, drones, and
military).
In 2016, the top 30 MEMS players totaled $9.24B. In
2017, that number increased to $9.88B.
2017-2023 MEMS market forecasts: RF vs. other devices
(Yole Développement, May 2018)
2017 2018 2019 2020 2021 2022 2023
RF MEMS Other MEMS
$2
$4
$6
$8
$10
$12
$14
57. $16
U
S$
B
CAG
R 2017-20
23
= 17%
Find more
details about
this report here:
MARKET & TECHNOLOGY REPORT
COMPANIES CITED IN THE REPORT (non exhaustive list)
AAC, AKM, ALPS Electric, Amphenol, ams, Analog Devices,
Apple, Asia Pacific Microsystems, Boehringer
Ingelheim microPARTS, Bosch, Broadcom, Canon, Colibrys,
Cirrus Logic, DENSO, DRS, EPCOS,
Epson, First Sensor Technology, FLIR Systems, FormFactor,
Fujifilm Dimatix, GLOBALFOUNDRIES,
Goertek, Hewlett Packard, Hitachi Automotive, Honeywell,
IMT, Infineon Technologies, Kistler,
Knowles Electronics, Kulite, mCube, Meggitt Sensing Systems,
Melexis, Memjet, MEMSCAP, MEMSIC,
Micralyne, MicroVision, Murata, NXP Semiconductors, Omron,
ON Semiconductor, Panasonic, Qorvo,
Qualcomm, Raytheon, ROHM, Samsung, SCD, SDI, Semefab,
58. Sensata, Sensirion, Sensonor, SiTime, Silex
Microsystems, Silicon Sensing Systems, SMIC, Sony,
STMicroelectronics, TDK, Teledyne DALSA, Texas
Instruments, Tower Jazz, TSMC, ULIS, UMC, UTC Aerospace
System, X-Fab, Yamaha…and many more
AUTHOR
With almost 20 years of experience in
MEMS,SensorsandPhotonicsapplications,
markets,andtechnologyanalyses,Dr. Eric
Mounier providesdeep industry insight
intocurrentandfuturetrends.AsaPrincipal
Analyst, Technology & Market, MEMS &
Photonics, in the Photonics, Sensing &
Displaydivision,heisadailycontributorto
thedevelopmentofMEMSandPhotonics
activities at Yole Développement (Yole),
with a large collection of market and
technology reports as well as multiple
custom consulting projects: business
strategy, identification of investments or
acquisitiontargets,duediligences(buy/sell
side),marketandtechnologyanalysis,cost
modelling,technologyscouting,etc.
Previously, Dr. Mounier held R&D and
MarketingpositionsatCEALeti(France).
Hehasspokeninnumerousinternational
conferences and has authored or co-
authoredmorethan100papers.
Eric has a Semiconductor Engineering
Degree and a Ph.-D in Optoelectronics
fromtheNationalPolytechnic Instituteof
Grenoble(France).
Introduction, definitions and methodology 6
59. Executive summary 20
Sensors mega trends 43
> Smart automotive
> Mobile
> AR/VR
> Voice processing and audio
> Medical
> Industry 4.0
Global MEMS, sensors, and actuators market 77
MEMS markets 2017-2023 90
MEMS players 106
MEMS packaging 121
MEMS financial analysis 131
MEMS devices - analysis 135
> Inkjet heads
> Pressure
> Microphones
> Inertial
> Optical MEMS
> Infrared
> Microfluidics
> RF MEMS and oscillators
> Environmental MEMS
> Future MEMS
> Piezo MEMS
MEMS applications analysis 204
> Consumer
> Automotive
> Defense and aeronautics
> Medical
> Industrial/telecom
60. Conclusions 215
Appendix 218
2017 vs. 2018 MEMS forecasts 219
Yole Développement presentation 227
TABLE OF CONTENTS (complete content on i-
Micronews.com)
From detecting to global perception awareness
(Yole Développement, May 2018)
OBJECTIVES OF THE REPORT
•Aviewoffuturemegatrendsandtheirimpactonsensors
•AglobalviewconcerningthefutureofMEMS,sensors,andactuators
•AnunderstandingoftheMEMS,sensor,andactuatormarketsandapp
lications
•MEMSandsensorplayers’dynamicsandrankings
•MEMSmarketdatain$M,units,andwafersfor2017-2023
•InformationonfutureMEMSdevices
•ApresentationofMEMSgame-changersandindustrytrends
•A MEMS applications overview: automotive, consumer,
defense and aeronautics, medical,
industrial,andtelecommunications
•AMEMSfinancialanalysis
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•MEMSPressureSensorComparison
2018-Structural,Process&Costing
62. Infra redVisible
Sound
Radio frequency
IR, Visible
Hyperspectral Ultra sound
Sound Multi -parameters
DETECTING AREA MEASURING AREA
GLOBAL ENVIRONMENT PERCEPTION AREA
Sensor fusion
A.I.
T
im
e
sc
al
e
Pa
ra
m
et
er
63. s
A
re
as
Gas Odors Multi spectral
IMUs Environment
sensors
New integration and packaging
approaches
New detection principles
New materials and processes
Si as a new sensor material
Improved electronics
New user cases
etc .. (empathy)
New sensor design
1. In MEMS’ early days, they were mainly
detectors, with little ability to provide good
accuracy
2. MEMS then evolved to measurement capabilities,
with improved accuracy plus accessibility to
additional measurable parameters (infrared,
64. sound, etc.)
3. We believe the next step will be “global
perception awareness”. By this we mean sensors
and MEMS that will provide global environment
mapping (like lidar does for 3D, but this could
also be possible for sound waves, hyper spectral
waves, etc.). Multi-sensor fusion and AI will be
critical building blocks towards achieving this
milestone.
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• MEMS & Sensors
83. MEMS & SENSORS
o MARKET AND TECHNOLOGY REPORT – by Yole
Développement
− Status of the MEMS Industry 2018 - Update
− Silicon Photonics 2018 - Update
− Consumer Biometrics: Sensors & Software 2018 - Update
− MEMS Pressure Sensors 2018
− Air Quality Sensors 2018
o REVERSE ENGINEERING & COSTING REVIEW – by
System Plus Consulting
− Gas & Particles Sensors
− MEMS Pressure Sensors
− Piezo MEMS 2018 *
o PATENT ANALYSES – by KnowMade
− MEMS Microphone – Patent Landscape Analysis
RF DEVICES AND TECHNOLOGIES
o MARKET AND TECHNOLOGY REPORT – by Yole
Développement
− 5G impact on RF Front End Modules and Connectivity for
Cellphones 2018 – Update
84. − RF GaN Market: Applications, Players, Technology, and
Substrates 2018-2023 –
Update
− Advanced RF System-in-Package for Cellphones 2018 –
Update *
− Wireless technologies (Radar, V2X) for Automotive 2018
− RF Standards and Technologies for Connected Objects 2018
− RF & Photonic Components & Technologies for 5G
Infrastructure 2018
o REVERSE ENGINEERING & COSTING REVIEW – by
System Plus Consulting
− RF Front-End Modules in Smartphones
− RF GaN*
o PATENT ANALYSES – by KnowMade
− RF Front End Module – Patent Landscape Analysis
− RF GaN – Patent Landscape Analysis
IMAGING & OPTOELECTRONICS
o MARKET AND TECHNOLOGY REPORT – by Yole
Développement
− Status of the CMOS Image Sensor Industry 2018 – Update
− Status of the Compact Camera Module and Wafer Level
85. Optics Industry 2018 -
Update
− 3D Imaging and Sensing 2018 - Update
− Machine Vision for Industry and Automation 2018
− Sensors for Robotic Vehicles 2018
− Imagers and Detectors for Security and Smart Buildings 2018
− LiDAR 2018: Market and technologies
o QUARTERLY UPDATE – by Yole Développement
− CMOS Image Sensors 2018 *
o REVERSE ENGINEERING & COSTING REVIEW – by
System Plus Consulting
− CMOS Image Sensors
− Compact Camera Modules
o PATENT ANALYSES – by KnowMade
− LiDAR – Patent Landscape Analysis
SOFTWARE
o MARKET AND TECHNOLOGY REPORT – by Yole
Développement
− Consumer Biometrics: Sensors & Software 2018 - Update
− Processing Hardware and Software for AI 2018 – Vol. 1 & 2
87. − Trends in Automotive for Advanced Packaging 2018
− Processing Hardware and Software for AI 2018 – Vol. 1 & 2
− Integrated Passive Devices (IPD) 2018
o REVERSE ENGINEERING & COSTING REVIEW – by
System Plus Consulting
− RF Front-End SiP
− Fan-Out Packaging *
o PATENT ANALYSES – by KnowMade
− Hybrid Bonding for 3D Stack – Patent Landscape Analysis
MANUFACTURING
o MARKET AND TECHNOLOGY REPORT – by Yole
Développement
− Wafer Starts for More Than Moore Applications
− Equipment for More than Moore: Technology & Market
Trends for Lithography &
Bonding/Debonding 2018
− Equipment for More than Moore: Technology & Market
Trends for Thin Film
Deposition & Etching 2018
− Polymeric Materials for wafer-level Advanced Packaging
2018
o REVERSE ENGINEERING & COSTING REVIEW – by
88. System Plus Consulting
− Wafer Bonding Technology Overview 2018
MEMORY
o MARKET AND TECHNOLOGY REPORT – by Yole
Développement
− Emerging Non Volatile Memory 2018 – Update
− Memory Packaging Market and Technology Report 2018 –
Update*
o QUARTERLY UPDATE – by Yole Développement**
− Memory Market 2018 (NAND & DRAM)
o MONTHLY UPDATE – by Yole Développement**
− Memory Pricing 2018 (NAND & DRAM)
o REVERSE ENGINEERING & COSTING REVIEW – by
System Plus Consulting
− DRAM Technology & Cost Review 2018
− NAND Memory Technology & Cost Review 2018
o PATENT ANALYSES – by KnowMade
− 3D Non-Volatile Memories – Patent Landscape Analysis
COMPOUND SEMICONDUCTORS
MARKET AND TECHNOLOGY REPORT – by Yole
89. Développement
− Status of Compound Semiconductor Industry 2018*
− Power SiC 2018: Materials, Devices, and Applications -
Update
− Power GaN 2018: Materials, Devices, and Applications –
Update
− RF GaN Market: Applications, Players, Technology, and
Substrates 2018-2023 –
Update
− GaAs Materials, Devices and Applications 2018
− InP Materials, Devices and Applications 2018
o REVERSE ENGINEERING & COSTING REVIEW – by
System Plus Consulting
− Power SiC Devices
− Power GaN Devices
o PATENT ANALYSES – by KnowMade
− Power SiC – Patent Landscape Analysis
− Status of the GaN IP – Patent Watch 2018 & Patent Activity
2017
Update : 2017 version still available / *To be confirmed / **
Can not be selected within an Annual Subscription offer
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91. BATTERY AND ENERGY MANAGEMENT
o MARKET AND TECHNOLOGY REPORT – by Yole
Développement
− Solid State Electrolyte Battery 2018
− Li-ion Battery Packs for Automotive and Stationary Storage
Applications 2018 -
Update
o PATENT ANALYSES – by KnowMade
− Solid-State Batteries – Patent Landscape Analysis
− Status of the Battery IP – Patent Watch 2018 & Patent
Activity 2017
SOLID STATE LIGHTING
o MARKET AND TECHNOLOGY REPORT – by Yole
Développement
− IR LEDs and Lasers 2018: Technology, Industry and Market
Trends - Update
− Automotive Lighting 2018: Technology, Industry and Market
Trends - Update
− UV LEDs 2018: Technology, Industry and Market Trends -
Update
− VCSELs 2018: Technology, Industry and Market Trends
− LiFi 2018: Technology, Industry and Market Trends
92. o REVERSE ENGINEERING & COSTING REVIEW – by
System Plus Consulting
− VCSELs 2018
− UV LEDs 2018 *
DISPLAYS
o MARKET AND TECHNOLOGY REPORT – by Yole
Développement
− MicroLED Displays 2018 – Update
− Quantum Dots and Wide Color Gamut Display Technologies
2018 - Update
− Displays and Optical Vision Systems for AR / VR / MR 2018
o PATENT ANALYSES – by KnowMade
− MicroLED Display – Patent Landscape Analysis
MEDTECH
o MARKET AND TECHNOLOGY REPORT – by Yole
Développement
− BioMEMS & Non Invasive Emerging Biosensors:
Microsystems for Medical
Applications 2018 - Update
− Point-of-Need Testing: Application of Microfluidic
Technologies - Update
− Neurotechnologies and Brain Computer Interface 2018
94. OUR 2017 PUBLISHED REPORTS (1/3)
MEMS & SENSORS
o MARKET AND TECHNOLOGY REPORT – by Yole
Développement
− Status of the MEMS Industry 2017
− High End Inertial Systems Market and Technology 2017
− Magnetic Sensors Market and Technologies 2017
− MEMS and Sensors for Automotive - Market and Technology
Trends 2017
− Acoustic MEMS and Audio
Solution
s 2017
− Sensors and Sensing Modules for Smart Homes and Buildings
2017
− Fingerprint Sensor Applications and Technologies –
Consumer Market Focus 2017
o REVERSE COSTING REPORT – by System Plus Consulting
95. − Continental SRL1: State-of-the-art LiDAR for Advanced
Driver Assistance Systems –
Reverse Costing Report
− Bosch Mobility Ultrasonic Sensor – Reverse Costing Report
− MEMS Packaging 2017 - Reverse Costing Review
− Bosch BMP380 Pressure Sensor – Reverse Costing Report
IMAGING & PHOTONICS
o MARKET AND TECHNOLOGY REPORT – by Yole
Développement
− Status of the CMOS Image Sensor Industry 2017
− 3D Imaging and Sensing 2017
− Uncooled Infrared Imaging Technology & Market Trends
2017
− Camera Module Industry Market and Technology Trends 2017
o REVERSE COSTING REPORT – by System Plus Consulting
96. − FLIR Boson – a small, innovative, low power, smart thermal
camera core – Reverse
Costing Report
− Camera Module Physical Analyses Overview 2017
RF DEVICES AND TECHNOLOGIES
o MARKET AND TECHNOLOGY REPORT – by Yole
Développement
− RF Front End Modules and Components for Cellphones 2017
− Advanced RF System-in-Package for Cell Phones 2017
− 5G Impact on RF Front-End Industry 2017
ADVANCED PACKAGING
o MARKET AND TECHNOLOGY REPORT – by Yole
Développement
− Status of the Advanced Packaging Industry 2017
97. − Embedded Die Packaging: Technology and Market Trends
2017
− Fan-Out: Technologies and Market trends 2017
− Advanced Substrates Overview: From IC Package to Board
2017
− 3D TSV and 2.5D Business Update - Market and Technology
Trends 2017
− Advanced RF System-in-Package for Cellphones 2017
− Memory Packaging Market and Technology Report 2017
− MEMS Packaging 2017
− Emerging Non-Volatile Memory 2017
o REVERSE COSTING REPORT – by System Plus Consulting
− NVIDIA Tesla P100 - Reverse Costing Report
− MEMS Packaging - Reverse Technology Review
98. − Advanced RF SiP for Cellphones 2017 - Reverse Costing
Review
SOFTWARE
o MARKET AND TECHNOLOGY REPORT – by Yole
Développement
− Embedded Software in Vision Systems
MEDTECH
o MARKET AND TECHNOLOGY REPORT – by Yole
Développement
− Status of the Microfluidics Industry 2017
− Solid-State Medical Imaging 2017
− Organs-On-Chips 2017
− Connected Medical Devices Market and Business Models
2017
− Artificial Organ Technology and Market analysis 2017
100. BATTERIES & ENERGY MANAGEMENT
o MARKET AND TECHNOLOGY REPORT – by Yole
Développement
− Status of the Rechargeable Li-ion Battery Industry
− Market Opportunities for Thermal Management Components
in Smartphones
DISPLAYS
o MARKET AND TECHNOLOGY REPORT – by Yole
Développement
− MicroLED Displays
− Quantum Dots and Wide Color Gamut Display Technologies
− Phosphors & Quantum Dots 2017 - LED Downconverters for
Lighting & Displays
SOLID STATE LIGHTING
o MARKET AND TECHNOLOGY REPORT – by Yole
101. Développement
− LED Packaging 2017: Market, Technology and Industry
Landscape
− CSP LED Lighting Modules
− IR LEDS and VCSELs - Technology, Applications and
Industry Trends
− LED Lighting Module Technology, Industry and Market
Trends 2017
− Automotive Lighting: Technology, Industry and Market
Trends 2017
− Horticultural LED Lighting: Market, Industry, and
Technology Trends
POWER ELECTRONICS
o MARKET AND TECHNOLOGY REPORT – by Yole
Développement
− Status of the Power Electronics Industry 2017
102. − Thermal Management Technology and Market Perspectives in
Power Electronics and
LEDs 2017
− Gate Driver Market and Technology Trends 2017
− Power MOSFET 2017: Market and Technology Trends
− Power Module Packaging: Material Market and Technology
Trends 2017
− IGBT Market and Technology Trends 2017
o QUARTERLY UPDATE – by Yole Développement
− Power Management ICs Market 2017
o REVERSE COSTING REPORT – by System Plus Consulting
− EPC2045 100V GaN-on-Silicon Transistor – Reverse Costing
Report
− Silicon Capacitor - Technology and Cost Review
103. − Industrial 100V MOSFET - Technology and Cost Review
− InvenSense ICM-20789: High Performance 6-Axis Motion
Sensor and Pressure Sensor
Combo – Reverse Costing Report
COMPOUND SEMICONDUCTORS
o MARKET AND TECHNOLOGY REPORT – by Yole
Développement
− Bulk GaN Substrate Market 2017
− RF Power Market and Technologies 2017: GaN, GaAs and
LDMOS
− Power SiC 2017: Materials, Devices, Modules, and
Applications
− Power GaN 2017: Epitaxy, Devices, Applications, and
Technology Trends
http://www.yole.fr/
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105. Mapping
− Patent Licensing Companies in the Semiconductor Market -
Patent Litigation Risk and Potential Targets
− Microfluidic Technologies for Diagnostic Applications Patent
Landscape
TEARDOWN & REVERSE COSTING – by System Plus
Consulting
More than 60 teardowns and reverse costing analysis and cost
simulation tools published in 2017
MORE INFORMATION
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107. O N L I N E O N S I T E I N P E R S O N
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Email: [email protected] – + 1 310 600-8267
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Business
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Email: [email protected] - +49 15 123 544 182
• RoW: Jean-Christophe Eloy, CEO & President, Yole
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