Global Network Camera Industry Forecast to 2017

Introduction to network camera:

• A network camera also frequently called as IP camera, could be depicted as a camera and workstation joined in one unit. The primary segments of a network camera incorporate a lens, a picture sensor, one or a few processors, and memory. The processors are utilized for picture preparing, packing, feature dissection and networking functionalities. The memory is utilized for putting away the network camera's firmware (workstation program) and for nearby recording of feature groupings.

• The network camera has its own particular IP address like a computer machine, and is joined straight-forwardly to a network and could be set wherever there is a network connection. Network camera is totally different from web camera, which can just work when it is associated with a PC by means of the USB or IEEE 1394 port, and to utilize it, software must be introduced on the PC. A network camera gives web server, FTP (File Transfer Protocol), and email functionalities, and incorporates numerous other IP network and security conventions.

Source : www.marshall-usa.com

 

Advantages of Network Camera:

• Better picture quality
• Remote accessibility
• secured data transmission because of encryption and authentication
• Improved Scalability
• Improved Flexibility
• Smart video capabilities
• Installation as well as integration is very easy
• Maximum Cost-effectiveness
• Distributed intelligence and etc.

Application Areas of Network Camera Include :

• Industrial
• City surveillance
• Government
• Healthcare
• Retail
• Transportation
• Education
• Banking and finance

 Types of network cameras:

1. Centralized IP cameras
2. Decentralized IP cameras
3. Megapixel network cameras
4. Pan tilt zoom network cameras
5. Fixed network cameras
6. Fixed dome network cameras
7. Covert network cameras  
8. Thermal network cameras

 

Market :

The global network camera market is estimated to worth $4.5 billion in 2017 growing at a CAGR of around 19% from 2012 to 2017. In terms of unit shipments, it is estimated to ship more than 28 million units in 2017, growing at a compound grow rate of 27.2% from 2012 to 2017.

Global Network Camera Market, 2011 - 2017

Source: MarketsandMarkets Analysis

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Global Digital Signal Processor (DSPs) Industries Future Scope and Forecast to 2016

What is a Digital Signal Processor?

• Digital signal processors accept the digital signal and enhance it to impose the signal into speedy information, smoother voice or sharper pictures.
• Digital Signal Processors use sound, voice, video, temperature or position signals that have been digitized and arithmetically manipulate them
• A Digital Signal Processor, or DSP, is a special kind of microprocessor that has an architecture which is optimized for the fast operational needs of digital signal processing.
• A Digital Signal Processor (DSP) can process data in real time, making it ideal for applications that can’t tolerate delays
• A digital signal processor is designed to perform these mathematical functions rapidly. The signals are processed so the information contained in them can be displayed or converted to another type of signal.

 

·     A Digital Signal Processor is required to do the following Digital Signal Processing tasks in real time 

 

Signal Modeling 

•  Difference Equation 
• Convolution 
• Transfer Function 
• Frequency Response 

Signal Processing

• Data Manipulation
• Algorithms
• ƒFiltering
• Estimation 

 

Types of Digital Signal Processors:

Today there are various types of programmable digital signal processors available and at Future Electronics we stock many of the most common types categorized by

1. Clock Frequency 
2. RAM size 
3. Data Bus Width 
4. ROM Size
5. Flash size
6. packaging type
7. MMAC/MIPS/FLOPS and 
8. I/O Voltage

DSP Applications

1. Audio applications

• MPEG Audio
• Portable audio

2. Digital cameras

3. Wireless

• Cellular telephones
• Bas station

4. Networking

• Cable modems
• ADSL
• VDSL

 

Another Look at DSP Applications 

 

High-end

• Wireless Base Station - TMS320C6000
• Cable modem 
•  gateways

Mid-end

• Cellular phone - TMS320C540
• Fax/ voice server

Low end

• Digital camera - TMS320C5000
• Storage products - TMS320C27
• Portable phones 
•  Wireless headsets
• Consumer audio

  

DSP Characteristics:

1. Guaranteeing a repeatable, desired performance as DSP programs execution time can be implemented accurately. And hence Deterministic operation. 
    
2. Re-programmability by software. Different system behaviour might be obtained by re-coding the algorithm executed by the DSP instead of by hardware modifications.     
    
3. Real-time digital signal processing capabilities. DSPs typically have to process data in real time, i.e., the correctness of the operation depends heavily on the time when the data processing is completed.
    
4. High throughput. DSPs can sustain processing of high-speed streaming data, such as audio and multimedia data processing.

 

Market:

The worldwide DSP market has come back to the developing stage after the worldwide financial retreat and is required to develop consistently throughout the following 5 years. Huge scale reception of digital signal processing in the most recent reach of purchaser hardware has lead to expanded utilization of DSP chips, which are entering into a few requisitions which utilize advanced state-of-the art digital signal processing.

The worldwide DSP market by income is assessed to increse from $6.20 billion in 2011 to $9.58 billion in 2016 at a CAGR of 9.09%. The rate offer of DSP industry in the worldwide semiconductor income was pretty nearly between 1% and 3% throughout the years, and it right now remains at 1.97% in 2011.

GLOBAL DSP MARKET REVENUE SHARE BY APPLICATIONS IN END-USER VERTICALS, 2011 ($MILLION) 

Source: MarketsandMarkets

For more details CLICK HERE

Global Wireless Sensors for Environmental and Agricultural Monitoring

Source : www.brainwareknowledgehub.com

 

What are Wireless Sensors?

Standard measurement tools which are equipped with transmitters to convert emitted signals from process control equipments into a radio transmission are called as Wireless sensors. The radio signal is translated by a recipient which then changes over the wireless signal to a specific, desired output, for example a analog signal or data analysis by means of machine programming.

 

Benefits to using Wireless Sensors : 

 

1. Reduce Costs :  

By eliminating the need for extension wire, conduit, and other costly accessories wireless process control can reduce the cost of monitoring and running a factory.

 

2. Convenience :

To form a network that enable an engineer to supervise a number of various places from one place wireless sensors can be used. This enables a centralized command on a factory. Also, various wireless sensors have the potential to generate a unique web page making up-to-date data, accessible anytime and anywhere in the world.

 

3. Safety :

Wireless instruments could be utilized within areas that are troublesome to gain access to because of compelling conditions, for example, high temperature, ph, pressure, and so on. Utilizing wireless sensors, specialists can persistently administer processes in unsafe situations and report the information again to a operator in a checking office placed at a safe distance away. Wireless measurement is also useful for obtaining data in hard to access locations.

 

Selecting a Wireless Sensor :

There are a number of factors to be consider while selecting a wireless measurement instrument.

 

1. Range: 

 
The range of wireless sensors differs generally. Some are intended for short-run, indoor provisions of a couple of hundred feet, while different sensors can transmit information to a recipient spotted miles away.
Notwithstanding the sensors ability, the range of a wireless signal is constantly constrained by obstructions. Transmitting through machines, dividers, and structures degrades signal quality and lessens range competence. Accordingly, the range of a transmitter placed inside is typically significantly less than the same transmitter broadcasting outside in totally open field.

2. Frequency:

The recurrence of radio transmission is likewise important to think about. Laws change by nation and area as to which parts of the wireless spectrum are accessible for utilization without particular licenses. In the USA 915mhz, 2.4ghz (Wifi) are the major frequencies factories can use to transmit signals. As a major aspect of the mechanical, investigative, and medicinal band, clients don't require a radio permit to work on these frequencies. In Europe, wireless items commonly work on 868mhz or 2.4ghz. Because of regulatory prerequisites, items might just be accessible in specific districts.

3. Accuracy and Response Time:

How exact does the measurement necessity to be, and how rapidly ought to the measurement be redesigned? Most wireless sensors are as correct as their wired counterparts; however the readings are normally transmitted each few seconds to protect battery power. Assuming that instantaneous measurement is vital, this must be contemplated when selecting the wireless transmitter on the grounds that certain models may not offer the sought reaction time.

4. Type of Measurement: 

 

It is vital to comprehend what is continuously measured. Wireless transmitters (which fuse wireless methodology estimation and control) ordinarily have an interesting capacity. Sensors are particularly intended for temperature, pressure, stream, and so on., and must be chosen in like manner. 

 

Types of Wireless Sensors :

• Transmitters

• Receivers

• Controllers

• Data Loggers

• Transceivers

 

Market:

Global Wireless Sensors Market for Environmental and Agricultural Monitoring is expected to reach $2946 million by 2016 at an estimated CAGR of 11.2% from 2011 to 2016.

Source: MarketsandMarkets

For more details CLICK HERE

Smart Glass & Smart Windows Industry Opportunities and Future Scope

INTRODUCTION : 

 A smart glass is expected to can control the measure of light, and hotness, passing through. With the turn of a catch, the glass can change from transparent to totally murky. Not at all like blinds, smart windows are fit for part of the way blocking light while supporting a reasonable perspective of what lies behind the window.

The "Smart Glasses" gives the focal point of easier vitality utilization with the included accommodation of a technologically exceptional window set up of blinds. While the essential idea driving all smart windows is the same, they might be made in a few diverse routes, each with an alternate system and properties for blocking light.

Source : www.eoshd.com

laminated glass i.e Liquid-crystal glass is having minimum of two clear or colored sheets of glass and a liquid crystal film, assembled between at least two plastic inter-layers. In this window's "off" condition, the glazing is a milky white. In case of current is applied, however, it turns slightly hazy clear. The switch between the two states is closely instantaneous. This liquid crystal window provides no energy saving benefits as there is little change in performance properties and because it requires constant energy to maintain its clear state. Liquid crystal glazing is designed for internal applications, including partitions, display cases, bank screens.

• Smart Glass

1.      Smart Glass (Single Glazing)

2.      Smart Glass (Double Glazing)

3.      Smart Glass (Laminate)

4.      Smart Glass Screens.
 

APPLICATIONS :

Smart glass can be applicable in the following areas:

• Applications of smart glass include building windows, doors and skylights;
•  automobile, boat and aircraft windows;
•  appliance windows, computer screens and cell phone screens.
•  Its use in home and residential windows can all but eliminate the need for blinds or shades, and it fits in with the "green movement" by helping with interior heating and cooling.
• Few professions and industries such as the fitment , the automobile, and the house.
• In the industry of real estate/decoration, it can be applied in high-stand apartments, villas, town houses, office building and stores.
• Building walls, doors, windows and indoor separation, decorations.
• The big area of the projection wall
• The controllable options of offices (meeting rooms, supervision rooms)
• The controllable options of public facilities (restaurants, hotels, banks, hospitals, the recreational places)

Advantages of Advantages of LC SmartGlass (Privacy Control Glass)

Advantages of

Advantages of

BENEFITS :

•  Instant and precise privacy control
•  Reduced fading of carpets, furniture and protects valuable artwork
•  High UV stability
•  Low working voltage
•  High contrast for use as rear projection screen
•  Long life – tested to in excess of 1,000,000 cycles
•  Efficient use of space in the built environment
•  Blocks 99.5+% of damaging UV rays
•  Stable colour characteristics for the life of the unit
•   Aesthetically pleasing
•  Hygienic and low maintenance
•  Tested to IPX7, BS EN 60529:1992.
•  Tested to EN ISO 12543-4
•  Eco friendly
•  Exceptional optical qualities that reduce glare and eye strain
•  High durability, solid-state technology with no moving parts to wear out or break
•  Large sizes of many shapes can be produced
•  Enhance corporate image
• Reduces uncomfortable “Gold fish bowl” feeling when living or working in high-density buildings such as apartment blocks or office complexes.
• Elimination of the need for expensive window dressings like electronic louvers; blinds and solar shades used in architectural applications
• Wide range of light transmission levels without the blocking of ones view
• Long life – tested to in excess of 100,000 cycles
• High contrast at any viewing angle and any illumination level
• Low working voltage
• Hygienic low maintenance material
• Aesthetically pleasing
• High UV stability
• Protects skin from damaging UV rays
• Reduced fading of carpets, furniture and protect valuable artwork
• Exceptional optical qualities that reduce glare and eye strain
• Eco friendly, reduced building carbon emissions
• Ambient temperature control
• Stable colour characteristics for the life of the unit
• High durability, solid-state technology with no moving parts to wear out or break
• Energy Savings on cooling, shading & lighting costs .

According to the market research report, the total Smart Glass market is expected to reach $3.83 billion by 2017 at a CAGR of 20.3% from 2012 to 2017. 

Source: MarketsandMarkets Analysis

For More Details CLICK HERE