One of the key factors in the success of global businesses has been the efficient analysis of past performancedata: consumer data to improve products and increase customer satisfaction or operational data to improve efficiency and reduce cost. However, in today’s interconnected digital world with the proliferation of smart mobile devices and the advancements in operations and transport automation, we are seeing a shift towards larger and more diverse real-time data that is revolutionizing the way companies can manage their new-age supply chain networks.
What is Big Data?
Big Data refers to extremely large data sets, from several sources that are often available real-time and that cannot be managed by traditional data processing systems. Advanced statistical programs, machine and deep learning algorithms can process this data and generate patterns, trends and implementable business insights. This has enabled companies to not only make instant decisions to increase efficiency but also to automatically adjust their robotic processes via a continuous feedback and improvement loop powered by big data analytics.
Why is Big Data a good fit for the logistics industry?
Big Data is a perfect fit for logistics as there are millions of packages moving across the world daily that go through multiple touch-points via a complex network of shippers (sellers), consignees (buyers), warehouse personnel, customs agents, transporters, loaders, packers, shipping and air carriers. This creates a multitude of data-points and enormous potential to improve both delivery times and cost and to achieve greater visibility across the network.
How Big Data can be used in the logistics industry?
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Optimal Routing:
With the spread of sensors and mobile devices, not only can a customer get uber-type tracking for their consignments but also the trucking companies can collect a range of data from engine performance, fuel consumption, tire wear-and-tear and even external data such as weather and traffic conditions. The data can process and computer algorithms can automatically manage route selection for the driver. The fleet operator will gain from better fleet optimization, thereby reducing cost while also ensuring on-time deliveries to customers.
A great example of this is when UPS used big data analytics to implement a policy where drivers should only turn left when absolutely necessary that saved them 40 million litres of fuel and increased deliveries by approximately 350,000 orders.
Similarly, for international shipping, data on congestion, strikes, weather conditions etc. enable carriers to provide accurate and predictive assessments of potential delays and disruptions to customers and adjust routes and capacity accordingly.
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Smart Warehousing:
Today, with robotic package handling, sorting and automated forklifts and other warehouse equipment we are nearing the complete mechanization of smart warehouses.While tech companies such as Amazon led the way, now even regular manufacturing companies are starting to automate their warehouse operations. Warehouses offer rich operational metrics on storage and movement of parcels that can provide insight into efficiency gaps. Big Data analytics and tracking sensorscan improve warehouse robotics, which can increase equipment life cycles(via preventive maintenance),accelerate product movement, optimize inventory management(through better predictive models), and also increase warehouse safety. Warehouse managers, using data analytics can make immediate operational decisions, resulting in seamless resource allocation, reduced costs and better warehouse throughput.
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Customer Satisfaction: