automated - Blog - Global Risk Community2024-03-28T10:43:06Zhttps://globalriskcommunity.com/profiles/blogs/feed/tag/automatedAutomatic Storage of Heavy Load and Retrieving Easilyhttps://globalriskcommunity.com/profiles/blogs/automatic-storage-of-heavy-load-and-retrieving-easily2020-12-03T09:30:00.000Z2020-12-03T09:30:00.000ZKBV Researchhttps://globalriskcommunity.com/members/KBVResearch<div><p>Imagine any plant/manufacturing region without cluttered walkways, the excess stock lost or harmed things, incorrect records, endless searching, climbing, bending, and disappointment. Imagine a deep beneficial operation that includes value and decreases cost.</p><p>Automated Storage and Retrieval system (ASRS) is designed to accomplish high-density hands-free buffering of materials in distribution and producing conditions. ASRS is a whole system planned to ship, stage/store, retrieve, and report on every item in any industrial stock with up-to-date minute accuracy.</p><p></p><p><a href="{{#staticFileLink}}8272620282,original{{/staticFileLink}}" target="_blank"><img src="{{#staticFileLink}}8272620282,original{{/staticFileLink}}" class="align-center" alt="8272620282?profile=original" /></a></p><h2><strong>Functions of ASRS:</strong></h2><p>An automated storage and retrieval system (ASRS) is known as a storage system under which a required level of automation is to be implemented to ensure precision and speed in <a href="https://www.kbvresearch.com/automated-storage-retrieval-system-market/">performing storage and retrieval activities</a>. This automated storage and mechanized systems eliminate the intervention of human in playing out some essential sets of operations that include:</p><ul><li>Removal of an item from a storage region automatically.</li><li>Transferring the above product to a particular processing or interface point.</li><li>After getting an item from a processing or interface point, it is put away naturally in a pre-determined region.</li></ul><p></p><h2><strong>ASRS on the basis of types:</strong></h2><h3><strong>1. Unit Load ASRS</strong></h3><p>The unit load ASRS is used to store and retrieve loads that are palletized or stored in standard-sized holders. The computer controls this system. The storage retrieval (S/R) machines are automated and intended to manage the unit load holders. Commonly, a mechanical clamp mechanism on the S/R machine handles the load. Notwithstanding, there are various frameworks, for instance, a vacuum or a magnet-based mechanism for handling sheet metal. The loads are normally above 500 lb for every unit. The unit load system is traditional ASRS.</p><p></p><h3><strong>2. Mini Load ASRS</strong></h3><p>The design of these frameworks is with the end goal that it can oversee small loads, for instance, individual parts, instruments, and supplies that are contained in bins or drawers in the storage system. Such a structure is appropriate where the accessibility of space is restricted.</p><p>It likewise finds its usage where the volume is exorbitantly low for a full-scale unit load system and unnecessarily high for a manual system. A mini-load ASRS is ordinarily smaller than a unit load ASRS and is regularly enclosed for the safety of items stored.</p><p></p><h3><strong>3. Vertical Lift Module (VLM) ASRS</strong></h3><p>VLMs can be built high to coordinate the available overhead space in an office. Various units can be placed in pods whereby an administrator can retrieve items from one unit while various units are moving. Varieties include width, height, load, speed, and a control system.</p><p>VLMs provides floor space savings, extended labor profitability and picking accuracy, improved laborer ergonomics, and controlled process.</p><p>Most VLMs offer unique space storage which measures the tray each time it is returned to the unit to upgrade space, safety features, and some offer tilt tray delivery for increased ergonomic availability and laser pointers which show the particular item to be picked each plate.</p><p></p><h2><strong>Uses of ASRS by End-User</strong></h2><h3><strong>1. ASRS in E-commerce</strong></h3><p>Since the Covid-19 outbreak, the behavior of customers has been shifting towards online channels. The demand for online channels has seen development for various sectors, for example, food and beverages, essential things, and medicine which are being delivered to clients' home with contactless delivery. The demand for warehouses of various e-commerce organizations has likewise expanded because of the expansion in the online demand for the items.</p><p>Leading e-commerce players, for example, Amazon, Alibaba, and eBay are increasing the demand for ASRS as they continue making new warehouses all over the world. This expanded number of warehouses requires the establishment of ASRSs for proper inventory service, listing, and retrieval services.</p><p></p><h3><strong>2. ASRS in Automotive</strong></h3><p>The development in demand for electric vehicles and autonomous vehicles has elevated the car producers to increase manufacturing, which requires vehicle spare parts. Car producing plants need to deal with a lot of products and variety and breadth of stock adequately. Moreover, these plants need to upgrade their capacity limit within the accessible floor space.</p><p>Hence, ASRS frameworks are consistently being utilized to satisfy the requirements related to material handling capacity. During the outbreak of Covid-19, the business of automotive is under huge financial losses. Because of serious lockdown rules, people have been compelled to remain at their homes.</p><p>The outbreak of Covid-19 has resulted in low demand for ASRS in the automotive business. Nonetheless, when the situation gets normalized and the economy begins recovering from the unfavorable effect of Covid-19, the automotive sector will again observe huge demand for the ASRS system.</p><p></p><h2><strong>Summary:</strong></h2><p>Automated Storage and Retrieval System offers enormous space savings, a smaller footprint, and a smarter inventory system that is being redesigned accordingly all through its operational activity. This ASRS development and execution deal with integrating both mechanical segments and electrical knowledge.</p><p>The mechanical segments of this ASRS development give tools for the ASRS to fulfill its advanced automated tasks, while electrical components deal with the control of the movements on each article.</p></div>Emergence of Automated Optical Inspection Systemshttps://globalriskcommunity.com/profiles/blogs/emergence-of-automated-optical-inspection-systems2020-08-18T10:55:24.000Z2020-08-18T10:55:24.000ZKBV Researchhttps://globalriskcommunity.com/members/KBVResearch<div><p>Here’s why The Automated Optical Inspection Systems Trends are making a Wave in the Industry. As the demand for high-quality electronic products is on-demand in many industries, companies are choosing automated Optical Inspection Systems. The size of electronic products is decreasing and the need to compacting all components in the same miniature device will increase the chances of error during their production subsequently automated optical inspection systems are highly needed in such cases in order to identify defects.</p><p><a href="{{#staticFileLink}}8028329468,original{{/staticFileLink}}" target="_blank"><img src="{{#staticFileLink}}8028329468,original{{/staticFileLink}}" class="align-center" alt="8028329468?profile=original" /></a> </p><p></p><p>Automated Optical Inspection Systems is an automatic inspection system that visually examines the transistor, LCD, or printed circuit board. These Inspection Systems are commonly used in manufacturing progressions to test the quality of devices been manufactured. The camera is attached which autonomously scans the newly manufactured devices to test defects or failure as well as a quality check of the devices. <a href="https://www.kbvresearch.com/automated-optical-inspection-systems-market/">Automated Optical Inspection Systems</a> is a contactless method of assessment that is applied in various stages of manufacturing process like solder paste inspection (SPI), pre-reflow and post-reflow, and bare board inspection.</p><p></p><h2><strong>What is Automated Optical Inspection Systems</strong></h2><p>Automated Optical Inspection Systems use optics and cameras for capturing high-quality images. In order to detect any discrepancies or defects in the components that get assembled in the device, the images of the printed circuit board are taken and analyzed by software. It is programmed that collects data and sends it to computer software for analysis of the data. According to the specific component to be inspected, automated optical inspection systems are differently programmed.</p><p> </p><p>There are two types of automated optical inspection systems that are 2D AOI and 3D AOI. The lower cost and less complex programming made the 2D AOI system most ideal for inspection in the manufacturing companies. Since many new technologies have been implemented at its software interface and image processing methods many features have been improved. 3D AOI captures the volumetric image of the object it inspects. This in turn gives a high definition image of the components or the devices that makes the inspection system more accurate. It has more complex programming and also the cost possess limitations in their application for low or average budget companies.</p><p> </p><p>During the manufacturing of devices or products, the manufacturer opts for two ways of inspection: inline and offline. Inline product inspection is the inspection process that occurs in the production line itself. While in off-line, the inspection process occurs when the product is removed from the production line. Most widely used is inline, as it introduces a faster rate of inspection to the system and scans both sides of printed circuit boards that make the system sufficient enough. Due to such properties, an inline inspection ensures high production in manufacturing companies.</p><h2><strong>Advantages of AOI</strong></h2><p>To achieve the target of high production volume, the speed of assembly PCB components must increase this consequently increases the chances of error, there plays AOI important to detect such errors. The need for better inspection techniques is high in manufacturing industries more productivity. There are many advantages to Automated Optical Inspection Systems compared to manual inspection.</p><p> </p><p>This inspection system can easily adapt to the surfaces of different products, therefore, reduces the time of inspection. AOI is well-programmed and can work continuously, and has a higher speed of inspection than manual inspection. The error during the inspection is almost negligible. Altogether, it is time-saving and cost-effective for manufacturing companies. The products manufactured by the intervention automated inspection are customer satisfaction and help the business of the manufacturing companies grow enormously.</p><h2><strong>Applications</strong></h2><p>Automated Optical Inspection Systems are used in various industries including IT and telecom in the production of routers, communication devices, servers, satellite systems, LED displays, etc. Manufacturing of home appliances and smartphones also uses AOI for quality production. It also finds its application in Automotive, Industrial Electronics, Aerospace & Defence, and Medical devices manufacturing industries.</p><h2><strong>Challenges faced by it</strong></h2><p>The Automated Optical Inspection System is well-programmed. The main challenge faced by this system is the complex programming structure and its operation. The false detection might occur if the programming is not working efficiently and will ultimately hamper the quality of the products. False call rate of detention by AOI, providing incorrect inspection data will tend to interfere with the performance of the machine. However, advanced technologies such as artificial intelligence and 3D imaging have been introduced in AOI systems in the past few years that will decrease the frequency of false call rates and hence improve the performance of the system.</p><h2><strong>Sum up</strong></h2><p>The Automated Optical Inspection Systems Market has been witnessing rapid growth due to extensive use of printed circuit boards in computers, electrical products in homes, and IT and telecom industries all across the globe. All these sectors require high-quality electronic products and to ensure the products manufactured are non-defective, Automated Optical Inspection System has been opted by manufacturing companies and industries. The market of vehicles manufacturing is growing and the rise in the demand for durable and high performing electronic products in the automobile industry is also increasing ultimately led to an increase in the demand of the AOI system.</p><p> </p><p>Additionally, the advancement in technologies causing in the manufacturing of slimmer and compact electronic devices will have a positive impact on the AOI market in the coming years globally. The past few years' disposable incomes have increased which has amplified the demand for consumer electronic products, this also drives the market in a positive direction.</p><p> </p><p> </p></div>Automated Fare Collection System Nowdays in Trendshttps://globalriskcommunity.com/profiles/blogs/automated-fare-collection-system-nowdays-in-trends2020-08-13T10:27:21.000Z2020-08-13T10:27:21.000ZKBV Researchhttps://globalriskcommunity.com/members/KBVResearch<div><p>Here’s why an automated fare collection system is making a wave in the industry. Since digital payment gateways and real-time payments are gaining more attention for the purpose of collection of fare in transportation services. With numerous benefits of automated fare collection like its better process management system, effective system planning, and good revenue generations, it will replace the traditional ticketing system in the coming days. The demand for a hassle-free and smooth transport system is rising along with the development in rail and road transport infrastructure increasing the <a href="https://www.kbvresearch.com/automated-fare-collection-system-market/">demand for automated fare collection.</a></p><p></p><p></p><p><a href="{{#staticFileLink}}8028329867,original{{/staticFileLink}}" target="_blank"><img src="{{#staticFileLink}}8028329867,original{{/staticFileLink}}" class="align-center" alt="8028329867?profile=original" /></a> </p><p></p><h2><strong>What is an automated fare collection system?</strong></h2><p>An automated fare collection (AFC) system consists of the pool of components that are assembled so as to automate the ticketing system in the public transport network. Software and hardware are the two components of AFC<strong>.</strong> It is designed with the concept of providing a fast and reliable payment system. In many metropolitan or smart cities, automated fare collection has become one of the basic equipment in the stations and bus stops. AFC consists of an automatic gate machine, ticket checking machine, and ticket vending machine. This system makes the fare collection process more safe and accurate. The ticketing system is a majorly contactless smart token or card type.</p><p> </p><h2><strong>Importance</strong></h2><p>There is rapid and mass transit of a large number of passengers in the cities of both developed and developing countries and in order to handle such mass, proper and efficient fare collection has become the need of the hour. An automated ticket collection system has been deployed in transport facilities. Since manual fare collection systems require much staff, it is time-consuming and may cause more traffic resulting in the discomfort of the passengers. Ticket Vending Machine (TVM), Ticket Office Machine (TOM), fare gates, and IC cards are the type of machines required in the automated fare collection system. This system is commonly used in railways, parking, cinema halls, and other transportation services.</p><p> </p><h2><strong>Advantages </strong></h2><p>AFC systems have been accepted globally for the Metro environment. There are many advantages of Automatic fare collection systems over manual collection systems like AFC requires less staff, avoids frauds, less leakage of revenue, etc. Automatic fare collection is easy and efficient to operate. The passenger or the user can generate tickets for their journey on their own. By application of AFC in stable and integrated platforms can make keep the flow of passengers to run smoothly at peak hours. AFC ensures Fast transactions with the use of a contactless smart card lowers the boarding time.</p><p> </p><p>Electronic ticketing lessens the chances of theft as what occurs commonly in physical currency. It reduces the cost of revenue collection as compared to paper-based ticketing since the system is automated. As smart cards or tokens are reusable therefore the costs of printing, handling, and distribution of paper tickets are also minimized. In AFC, passengers’ entry and exit are automatically recorded at fare gates. With all these advantages, the implementation of AFC in a city’s transportation facilities improves the image of the city and also increases the convenience of transportation, therefore helps in making the life of the people easier.</p><p> </p><h2><strong> </strong><strong>Trends followed in this system</strong></h2><p>The technologies included in the automated fare collection system are optical character recognition (OCR), magnetic strip, near field communication (NFC), and smart cards. Advancement in these technologies resulting in improving their performances of machines.</p><p> </p><ul><li>Smart card- in AFC, smart cards are used in which cards are accessed at the terminals and the information is sent to the destination by the servers, accordingly, the amount gets deducted from the card. These cards are recharged by top-ups. Card-based fare collection is an example of a closed-loop solution system. Contactless debit and credit cards can also be an option in the coming days. The technology of contactless card payment is accelerating globally.</li></ul><p> </p><ul><li>Magnetic stripe- Magnetic-stripe tickets are small cardboard-like tickets that have one or more stripe of oxidized material encoded to hold data. This data present on the stripe is read by authorized machines. It is not totally magnetic in nature but consists of oxidized material configured with the magnet. Magnetic-stripes contain data in the form of bits. Magnetic-stripe tickets are used in various fields including fare collection and it finds its application in passes, journey base tickets, stored value, and transfers.</li></ul><p> </p><ul><li>Near field communications (NFC) - NFC works on radio frequency identification (RFID) based technology that enables communication from distance to four inches or less. Smart cards need to be inserted in the machine in contrast NFC is contactless. It uses unpowered chips on the cards that communicate with the on-board in the fare collection system. NFC is easier to use than smart cards.</li></ul><p> </p><ul><li>Optical Character Recognition (OCR) - in OCR image of handwritten or typed letters or texts are electronically converted into machine-encoded text. It usually involves matrix matching and finds its applications in various fields including fare collection systems. It is an advanced technology.</li></ul><p> </p><h2><strong>Sum up</strong></h2><p>The automated fare collection system market has been witnessing rapid growth as the demand for automation anticipation in the fare collection system is increasing. Since the automated fare collection system is cost-effective and improves the transportation services, most of the cities are planning to deploy it in transport facilities. The rail and road transport infrastructure is also showing promising development and will drive the automated fare collection system market in the forecast period. Furthermore, more TVMs are been deployed in metro stations, subways, and local bus transit networks are expected to lead the increase in the demand of these machines in the automated fare collection system market.</p><p> </p><p><strong>Free Valuable Insights:</strong> <a href="https://www.kbvresearch.com/news/automated-fare-collection-system-market/">Global Automated Fare Collection System Market to reach a market size of USD 17.9 billion by 2026</a></p><p> </p><p>The rising demand of the public for an efficient transportation system has led to the distribution of an automated fare collection system in both developing as well as developed countries are fuelling the market and predicted to show rapid demand in the forecast period.</p><p> </p><p> </p><p> </p></div>Automated Guided Vehicle: What’s trending in and around the industry?https://globalriskcommunity.com/profiles/blogs/automated-guided-vehicle-what-s-trending-in-and-around-the2020-03-25T11:10:30.000Z2020-03-25T11:10:30.000ZKBV Researchhttps://globalriskcommunity.com/members/KBVResearch<div><p>Automated guided vehicles (AGVs) have come forth as a widely-demanded technology due to its unavoidable benefits. An AGV can be simply understood as a <a href="https://www.kbvresearch.com/automated-guided-vehicle-market/">fully-automated transport system</a>. The vehicle provides benefits ranging from better workforce safety, reduced production time, and low operational costs. The industry is driven by some of the massive technological trends such as the rapid adoption of mobile robots, Industry 4.0, and advancements in navigation technology.</p><p><a href="{{#staticFileLink}}8028316697,original{{/staticFileLink}}" target="_blank"><img src="{{#staticFileLink}}8028316697,original{{/staticFileLink}}" class="align-center" alt="8028316697?profile=original" /></a></p><h2>Getting familiar: The what, why and where of automated guided vehicles</h2><h3><strong>What is an automated guided vehicle?</strong></h3><p>Automated guided vehicle (AGV) systems help in moving and transporting items in warehouses, manufacturing facilities, and distribution centers without any fixed conveying system or manual intervention. It follows configurable guide paths to optimize storage, picking, and transport functionality in the premium space environment. The last few decades witnessed significant advances in robotic technology.</p><h3>Why has technology gained an unsurprising demand lately?</h3><p>The growing need for high efficiency in the healthcare, automotive, e-commerce, and food & beverage sectors is raising the need for automation. The AGV-enabled automation of industrial installations can help meet the requirements of material handling capacity, reduce production time, reduce the chances of human error, increase safety, ensure high production volumes and increase accuracy and repeatability. The adoption of AGVs enables just-in-time (JIT) delivery of raw materials, computerized control of the received assembled parts and tracking of the shipped items.</p><h3>Where do we see the wide-scale adoption of the automated guided vehicle technology?</h3><p>AGVs are used in several end-use sectors, such as automotive, logistics, healthcare, manufacturing, and food and beverage industries. Increased productivity and decreased labor costs are the main factors that drive the need for industrial equipment. The demand for AGVs is expected to increase due to a rise in industrial automation. Expanding industrialization has led to a persistent need for specialized material handling and transport solutions for fueled performance.</p><h2>AGV for different industries:</h2><h3>Manufacturing</h3><p>Technological advancements and a rising population have put a greater demand on the manufacturing sector. Industry 4.0 will be the next step for the manufacturing industry by introducing internet technologies to an integrated automation system. By applying internet technologies to optimized automation systems, it became possible to make manufacturing processes more efficient, less reliance on human intervention and allowing systems to make self-decision. For decades, autonomous systems such as automated guided vehicles (AGVs) have been used in construction facilities and distribution centers.</p><h3>Retail</h3><p>Increasing globalization and the advent of online retail and bulk retail have increased demand for AGVs in the retail sector. The deployment of AGVs in factories and warehouses allows them to do this. Service quality and customer happiness are the main competitive factors in the e-commerce market. Companies are offering a single-day delivery option with certain additional charges and with rising disposable income in both emerging and advanced economies, the commercial viability of these schemes is increasing significantly. The single-day delivery method is carried out by e-commerce warehouses with the aid of AGVs.</p><h3>Healthcare</h3><p>Automated guided vehicles are penetrating the healthcare industry step by step. Multiple reasons influence this new situation. For example, reducing AGV costs and increasing salaries for human staff. Also, developments in sensor technology for location and navigation, environment recognition and collision avoidance, fleet management, and content monitoring, as well as a more comprehensive diagnosis of individual vehicles are the factors (among many others) driving the transition. Mobile robots are becoming more convenient, performing non-value-added tasks such as moving the trollies of 800 to 1,000 pounds that require the unskilled workforce. The AGVs play an important role in day-to-day operations and help staff focus on their core care skills and provide quality care for patients.</p><h2>What’s trending in and around the automated guided vehicle industry?</h2><h3>The trend of mobile robots</h3><p>Because of demands in automation, the mobile robot has been one of the focuses of research in this period. In their industrial plant, many industry players are using a mobile robot to eliminate manual labor, as well as to ensure more efficient and standardized processes. The industrial use of mobile robots is typically referred to as the Automated Guided Vehicle (AGV).</p><p>The advancements in navigation technology allow the AGV to be used for several tasks like carrying the load to pre-determined locations sent from the stock management, mobile app, and pallet handling. More recently, the paradigm of Industry 4.0 has been widely accepted in the sectors, where critical process data is traded for better management over the internet.</p><h3>Industry 4.0 and AGVs</h3><p>Industry 4.0 combines different technologies to further improve the coordination and management of manufacturing environments. Through the introduction of internet technology, the principles can be extended to existing manufacturing factories. Such innovations are aimed at improving connectivity between systems and handling facilities within factories in a better way. This can be done by creating a virtual equivalent using the sensor data from real-world systems. This enables better monitoring and control of the processes.</p><p></p><p>The smart factories comprise of smart devices and products that demonstrate IoT and CPS concepts. On-board processing, communication technology, data storage, sensors, and actuators are required for Smart devices. Smart products can define themselves, explain their status, history, and future processes. Manufacturing in smart factories is, therefore, more versatile and smarter, resulting in more individualized products and allowing factories to have a modular structure.</p><h3>Advancements in the navigation technology</h3><p>The earliest automated guided vehicles were directed by a wired method around the factory. Though this navigation technique is still used today, plant managers have to choose from several other methods. The tape is sensed by sensors on the AGVs, and this is used to direct the vehicle. Reference points are located on the factory floor at coordinates x, y in inertial navigation. Changes to the pathway can be made by simply changing the points of reference, making this process more versatile.</p><p>The next step from inertial navigation is open path navigation, which states that the vehicle can travel from one position to another independently, going from a guided vehicle to a self-driving vehicle. Speed and efficiency are important in the environment of the warehouse. Navigation developments have made the AGVs highly competitive.</p><h2>Automated guided vehicle industry insights</h2><p>Mar-2018: Toyota launched T-ONE, new, in-house smart automated guided automation software developed for vehicles. The program was developed as an integration layer that interacts with automated guided vehicles (AGVs) from Toyota Autopilot and existing infrastructure such as product recognition equipment, warehouse management systems, and other material handling equipment.</p><p></p><p>May-2018: Toyota has introduced a new electric forklift with heavy-duty Traigo80. This forklift provides high speed, maneuverability, and efficiency. The powerful motors provide a strong climbing ability and fast travel speed, making the forklift usually reserved for engine-powered forklifts suitable for challenging applications. With the help of a sharp rear steering angle, the truck can also navigate in small spaces where appropriate, for example in production or storage areas.</p><p></p><p>Nov-2018: Oceaneering launched REVO-GT, a vehicle system. This system uses driverless, self-guided community transit vehicles and has a capacity of up to 24 passengers. This allows the passengers to choose one or more specific destinations from pre-programmed routes linking different origins.</p><h2>Taking everything into account</h2><p>Industrial structures are rapidly evolving, moving towards automated systems to enhance and optimize productivity levels, reorganize logistics, and improve transportation & logistics systems. Industry 4.0’s emergence has contributed to the widespread sharing of data and automation in the manufacturing industry.</p><p></p><p><strong>Free Valuable Insights:</strong> <a href="https://www.kbvresearch.com/news/automated-guided-vehicle-market/">Global Automated Guided Vehicle Market to reach a market size of USD 5.4 billion by 2025</a></p><p></p><p>With growing interest and a move toward automated systems and innovations, the automated market for guided vehicles has seen growth in recent years. Technological advances, especially in the navigation area, have played an important role in increasing the adoption of the automated guided vehicle in the manufacturing sector.</p></div>Automated Liquid Handling Market Analysishttps://globalriskcommunity.com/profiles/blogs/automated-liquid-handling-market-analysis2019-01-28T11:00:00.000Z2019-01-28T11:00:00.000ZKBV Researchhttps://globalriskcommunity.com/members/KBVResearch<div><p>Automated Liquid Handling systems have contributed to the rearrangement of research workflows, which has further led to off-putting the manual efforts that are typically involved in liquid transfer operations. Automated liquid handling reflects a set of equipment and instruments that are used for handling liquids and implementing functions relating to liquid transfer within a clinical and research arena.</p><p><a href="{{#staticFileLink}}8028281852,original{{/staticFileLink}}" target="_blank"><img src="{{#staticFileLink}}8028281852,original{{/staticFileLink}}" class="align-full" alt="8028281852?profile=original" /></a></p><p>Intuitive interfaces of automated liquid handling systems enable operators of any skill level to perform their daily tasks effortlessly and with confidence. The systems provide full control of a highly flexible automation. <a href="https://www.kbvresearch.com/automated-liquid-handling-market/">Automated liquid handling systems</a> reduce time spent on repetitive pipetting tasks. They offer systems that are best suitable for medium or high applications along with meeting multiple liquid handling requisites which include channels, liquid volumes, or microplate type. Decreasing sample contamination and improving accuracy in bioassays is possible with these systems.</p><p>Manual intervention into research often comes coupled with errors and is not reproducible. It further creates supplementary bottlenecks within the encompassed research experiment when tryouts are not satisfactorily reproduced. These concerns have highlighted the adoption of automated liquid handling systems since their implementation ensures error-free reproducible results.</p><p><strong>Why are Automated Liquid Handling (ALH) systems crucial?</strong></p><p>Since multiple variables are affecting the important process in laboratories, choosing the appropriate solution for small volume handling is extremely important. Therefore, numerous labs have turned to automated liquid handling systems to complement improved reliability and increased efficiency to lab processes. One of the key benefits of automated liquid handlers is that they eradicate both person-to-person and day-to-day variability. Further, they generally accomplish this through minimized training that is needed to manually hand out sub-microliter volumes. Automated liquid handles also enable combination with other processing instruments. Through this, automated liquid handlers can be improved to accomplish better results and can be calibrated as per factors like the liquid type. </p><p><strong><iframe width="560" height="315" src="https://www.youtube.com/embed/s0sSJOW2JtY?wmode=opaque" frameborder="0" allowfullscreen=""></iframe></strong></p><p></p><p><strong>Types of Automated Liquid Handling Systems:</strong></p><p></p><p><strong>Individual Benchtop Workstation</strong></p><p>Individual benchtop workstations are tools that are designed to perform most of the sampling, mixing, and amalgamating liquid samples automatically. Bioresearch laboratories and drug development labs have limited sample contamination and free personnel to perform other tasks by using a multipurpose liquid handling automated workstation. The workstations are capable of measuring samples, add reagents, and ensure that liquids are added to bioassays in a uniform way. In comparison with other liquid handling systems, benchtop workstations are emerging as one of the top selling products across the globe.</p><p><strong>ALH in PCR setup</strong></p><p>The automation of PCR setup upsurges reproducibility alongside reducing hands-on time. <a href="https://www.kbvresearch.com/news/automated-liquid-handling-market-size/">Automated liquid</a> handlers enable rapid and accurate setup of endpoint, real-time, and multiplex PCR experiments. With platform sizes including benchtop and largely integrated workstations, any throughput requirements can be entertained. Automated liquid handlers offer solutions for any PCR automation needs.</p><p><strong>ALH in Serial Dilution</strong></p><p>Serial dilutions are a commonly used application in a lab. The user pipettes concentrated sample into the desired location and fill a series of additional locations which contain a fixed amount of diluent. Lab automation is the most appropriate choice for simplifying serial dilutions along with assuring utmost accuracy. A multi-channel automated pipettor has the capability of carrying out serial dilutions of eight to twelve samples simultaneously.</p><p><strong><a href="{{#staticFileLink}}8028281484,original{{/staticFileLink}}" target="_blank"><img src="{{#staticFileLink}}8028281484,original{{/staticFileLink}}" class="align-full" alt="8028281484?profile=original" /></a></strong></p><p><strong>ALH in Plate Reformatting</strong></p><p>Owing to the surging liquid handling constraints, sample reformatting turns out to be an expensive process. Plate reformatting is the process in which samples are moved from one container to another. The flow must be carefully performed to avoid unnecessary container format changes. Automated liquid handlers are used for compound management. These offer full plate dilutions and reformatting from source plates to assay plates.</p><p><strong>Trends & Developments</strong></p><p>Liquid handling robots are being used in automating chemical and biochemical laboratories. The robots dispense a specific quantity of reagent, samples, or other liquids into a designated container. Several liquid handling workstations can conduct multiple lab unit operations like sample mixing, transport, manipulation, and incubation. Liquid handling robots are available in the market with customizations using different add-on modules like PCR machines, colony pickers, etc. Manufacturers are emphasizing on developing automated liquid handling workstations to mix, sample, and combine the liquids.</p><p>Automated liquid handling systems extend the range from semi-automated multichannel pipettors to room-sized systems. The industry is evolving toward nifty, modular systems for every budget. Similarly, instrumentation, software, and methods are following the trend toward superior user accessibility.</p><p><strong>Full Report:</strong> <a href="https://www.kbvresearch.com/automated-liquid-handling-market/">https://www.kbvresearch.com/automated-liquid-handling-market/</a></p><p><strong>Click Here For Free Insights:</strong> <a href="https://www.kbvresearch.com/news/automated-liquid-handling-market-size/">https://www.kbvresearch.com/news/automated-liquid-handling-market-size/</a></p></div>This week’s DIY project – quant tradinghttps://globalriskcommunity.com/profiles/blogs/this-week-s-diy-project-quant-trading2013-08-15T17:56:52.000Z2013-08-15T17:56:52.000ZLaura Lupohttps://globalriskcommunity.com/members/LauraLupo<div><div style="text-align:center;"><p><img src="http://blogs.terrapinn.com/total-trading/files/2013/07/hammer_thumb.jpg" height="200" vspace="20" alt="hammer_thumb.jpg" /></p></div><p><a href="https://www.quantopian.com/" target="_blank"><b>Quantopian</b></a>, a start-up from Boston, wants to help ambitious traders disprove what many people have accepted for quite a while now – that while an individuals may get lucky from time to time, they cannot beat the market over a long period of time.</p><p> </p><p>The company provides a service that allows individual traders to write their own trading algorithms and use them however they like. In this way, more individual traders could get involved in algorithmic trading without the help of a larger entity.</p><p> </p><p>Founder John Fawcett discussed the project, saying “I wanted to create a platform for people to develop trading strategy. Professional quants are secretive about their work. I really wanted to make it more accessible. I build software that would let investors analyze all the different kinds of data out there to analyze companies and industries. I thought everybody should be using this approach.”</p><p> </p><p>At the moment, Quantopian offers back-testing for free, however this is costly for the company. While this is currently part of the service Fawcett wants to continue offering for free, the company may eventually find it needs the revenue. Moral of the story being: take advantage of using it for free while you can!</p><p> </p><p><a href="http://www.forbes.com/sites/petercohan/2013/07/01/quantopian-wants-to-turn-stock-trading-algorithmic/" target="_blank"><b>Read the original article here</b></a> ></p><p> </p><p>Interested in quant trading and investing? Check out <a href="http://www.terrapinn.com/2013/quant-invest-canada?utm_source=GlobalRiskCommunity&utm_medium=blog&utm_campaign=GR" target="_blank"><b>Quant Invest Canada</b></a>, taking place this October in Toronto.</p><p> </p></div>MiFID II – Trade Automation, Part 2https://globalriskcommunity.com/profiles/blogs/mifid-ii-trade-automation-part-22013-04-02T08:30:37.000Z2013-04-02T08:30:37.000ZKiki Pentheroudakihttps://globalriskcommunity.com/members/KikiPentheroudaki<div><p><i>by Kiki Pentheroudaki </i></p><p>We have discussed the historic development of automated trading and how regulators are pushing high-frequency traders to become market makers. We now want to look at further ways to regulate automated trading under MiFID II.</p><p><a href="http://www.thetradenews.com/news/Trading___Execution/Dark_pools,_HFT_braced_for_a_tough_2013.aspx">The impact of high frequency trading (HFT) flow on markets will also see continued attention from market participants and regulators alike</a>. In 2012, significant regulatory attention focused on HFT, such as provisions in the European Parliament's version of MiFID II. The document called for venues to instate order-to-trade ratios, a 500 millisecond minimum resting time for orders, and a ban of the maker-taker pricing model, which rewards posting passive liquidity but can lead to potential conflicts of interest among market participants.</p><p>For HFT there are concerns that not all high frequency traders are currently required to be authorised under MiFID as the exemption in Article 2.1(d) of the framework directive for persons who are only dealing on their own account can be used by such traders. While HFT represents an increasing and substantial share of market transactions and the liquidity they provide to the market may replace the more traditional market making activities, high frequency traders have no incentive or obligation to continue to provide ongoing liquidity in a distressed market situation unlike registered market makers.</p><p>High-frequency traders usually remain in the market for a mere blink of an eye but this restriction – an introduction of the 500 millisecond latency in a bid to make a stand - against the rise of high-frequency trading could significantly alter the way they operate and could also have unintended consequences for the wider market.</p><p>The HFT community says that Brussels’ plans will result in less liquidity and wider spreads for other market participants, while some in the market believe HFT will likely benefit from the move anyway as they will just pinpoint 499 and 501 milliseconds in the future to generate their profits (the original MiFID regulation made no such provision).</p><p>From a wider regulatory perspective, the CFTC and SEC are currently reviewing rules on Automated Trading and HFT. They are working together with the markets to consider recalibrating the existing market-wide circuit breakers. The CFTC has published proposals targeted at specialist automatic trading rules as part of the rules for the newly introduced Swap Dealers and Major Swap Participants. Persons involved in "automated and high frequency trading" who are direct members of a regulated market or MTF will be required to be authorised and supervised as investment firms. There will be specialist rules for firms involved in algorithmic trading including compliance, risk controls, and notification to regulators of algorithms. In addition firms will be required to flag the use of algorithms in transactions and orders.</p><p>Several concerns have been raised regarding the very broad scope of the proposed provisions, in particular on the obligation for algorithmic traders to provide liquidity at all times, and the legal uncertainty that would be created by the fact to leave the specification of the scope of this provision to delegated acts. Independent investors said they hoped MiFID II would shield them from HFT practices, which are often accused of distorting stock markets and profiting at the expense of traditional market players.</p><p>Regulators need to find a balanced approach of checks and balances to weed out the ‘bad’ HFT from the ‘beneficial’.</p></div>