CONVERT STORES TO PRIME ADVERTISING SPACE
A complete analytics and targeting solution for retailers to determine the location, pricing and content for in-store advertising. And for measuring the impacts.
Analyse Customer Behavior
Plan Ad Locations and Set Rates
Display Targeted Ads and Campaigns
Measure and Optimise
THE SMART ADVERTISING SOLUTION
Drive additional revenue from existing store space through targeted digital advertising
Walkbase Advertising works by using Wi-Fi analytics to anonymously gather accurate data on customer paths, dwell times and conversions to build rich segment profiles. This is then used for:
• determining the ad hotspots to locate in-store ad displays
• setting the pricing and rate cards for ad displays
• basing content and timing of ads based on behavioural segments
• using behavioural patterns to trigger ads real-time
• measuring how many saw an ad and what was the subsequent behaviour
Walkbase Advertising is a behavioural analytics & ad targeting solution that enables retailers to quickly grow their earnings from existing store space.
IDENTIFY IN-STORE AD HOTSPOTS
Draw insights from in-store heatmaps, shopping paths and category level patterns to locate ad displays.
CREATE RATE CARDS
Use accurate customer behaviour data from stores to set ad pricing by day, hour and display location.
TARGET BY SEGMENT & CATEGORY
Anonymous pathing and category dwell data is used to create behavioural segments and guide ad content & timing.
MEASURE IMPACTS REAL-TIME
Measure accurately how many people saw ad and what was the impact on customer behaviour.
Clarity™ is our proprietary RFID item-level inventory management solution that provides faster, easier inventory execution, increasing both retail supply chain and individual store efficiency as well as integrating with your existing ERP or business intelligence systems.
Features and functionality:
EAS and loss prevention
Point-of-sale and checkout
Service oriented architecture and enterprise integration
What is image tracking?
Match and track real 3D objects with polygonal shape: sphere, cube, cuboid, cylinder, hexagonal prism, cone, square based pyramid, triangular base pyramid and triangular prism.
Alert Innovation is proud to introduce the Alphabot® Automated Storage and Retrieval System (ASRS) and Automated Each-Picking System (AEPS), the most capital-efficient and broadly scalable design of each of these solutions ever developed. At the heart of Alphabot technology is a mobile robot unique in its ability to operate in all three dimensions within a multilevel storage structure. A fleet of these robots operates within a given system under control of a single Master Control System (MCS).
In an Alphabot ASRS, the bots are the only moving part—there are no lifts, conveyors, or any other material-handling mechanism—hence the capital-efficiency. The addition of a highly innovative picking workstation creates the world’s most advanced “goods-to-picker” each-picking technology in which the bots themselves flow product and order containers through these workstations, where pickers transfer eaches from product containers to order containers. Since the robots move vertically, workstations can be arrayed at multiple vertical elevations, enabling unprecedented space efficiency in high-throughput systems.
Alphabot technology makes possible a new-type of supermarket featuring automated-service rather than self-service, which we believe will become the next paradigm in food retailing. Our name for this type of supermarket is Novastore.
Like a conventional shuttle robot, Alphabot robots operate within a storage structure, running linearly within storage lanes on rails that are also the beams supporting stored containers (totes) of products to be picked. Also like shuttle robots, Alphabot robots transfer totes between their payload bays and storage locations. Unlike a shuttle robot but like many other mobile robots, an Alphabot robot can travel in x/y horizontal dimensions on a planar surface such as a floor or deck. However, unlike any other robot on the planet, an Alphabot can also move itself vertically in the z-dimension to any elevation within the structure and then transition back to moving horizontally at that elevation. It is a true “transformer” robot: at any vertical elevation, the robot can transition between being a mobile robot and a lift, or vice versa. In comparison to conventional shuttle-based ASRS and AEPS solutions, then, the Alphabot performs all of the transfer and transport functions of not only the shuttle robots, but also the lifts and conveyors, and the picking workstation mechanisms as well. It is this capability which enables Alphabot to be so capital efficient and so broadly scalable from very low-volume to very high-volume systems.
Alphabot robots have their own vertical-drive mechanism which engages with vertical tracks, or "towers" in the structure to move the robot from one elevation to another, and a wheel-retraction/extension mechanism that enables it to transition between vertical and horizontal modes at any point and travel horizontally at any storage or workstation level.
The robot transfers totes between its payload bay and storage-rack locations using a very simple mechanism that has a single drive motor, without any telescoping mechanisms or additional actuators typically found on other robots (like shuttle robots). This design is both less expensive and more robustly reliable than those competitive designs.
One other noteworthy feature of the Alphabot robot is its energy-storage subsystem that uses supercapacitors instead of chemical batteries. Supercaps charge and discharge far more quickly than batteries, have much longer useful lives (literally millions of charge cycles), and suffer no loss of storage capacity in low temperatures (compared to significant loss in chemical batteries). The reduced power density of supercaps compared to chemical batteries doesn’t penalize Alphabot because bots recharge while they climb and descend towers, which they must do on every trip. Since not very much energy needs to be stored, relatively few supercaps are needed. Alphabots are thus capable of operating at 100% duty cycle during peak demand periods, and there is no expense for battery replacement, so total cost of ownership is significantly lower than with chemical batteries.
There are four forms of structure within which the bots operate within an each-picking system: (1) storage modules that hold totes in storage, within which the bots move linearly and at relatively high velocity, (2) tower modules containing vertical tracks with which the bots engage to move vertically, (3) decks on which bots move two-dimensionally to access aisles and workstations, and (4) picking workstation modules in which bots present totes to pickers who transfer eaches from product totes to order totes. Aisle and tower modules are assembled quickly and precisely at ground level through the use of assembly fixtures, and are then raised into place, stacking one on top of another. The entire structure is thus erected very quickly and with high dimensional precision.
The picking workstation takes advantage of the robot’s vertical capability by having it enter the workstation from a lower deck, ascend into transfer position in front of the picker, and then exit to an upper deck. This design allows for a high rate of flow of robots and totes through the workstation, as well as nearly ideal ergonomics for the picker. Ultimately, this enables the system to achieve sustained pick rates of 800 or more picks per hour. To ensure accuracy, the workstation controller uses an overhead projector to illuminate both the pick and put locations (pick-to-light and put-to-light), and sensors detect the location of the picker’s hand when making a pick or a put. Since robots are instructed to move only after the picker’s hand clears a tote, the picker effectively controls the flow of robots with the motion of his/her hands, usually without even being aware of it.
MASTER CONTROL SYSTEM:
The most complex part of the Alphabot system is the Master Control System (MCS) software. To accelerate our development and reduce technical risk, Alert Innovation has licensed from Romaric Corporation the source code for the Romaric Automation Control Engine (RACE TM). RACE is a field-proven software system used primarily to control automated semiconductor factories, and by licensing the source code we have been able to adapt it to create the MCS for our Alphabot technology. MCS is responsible for processing all orders, scheduling all bot tasks, managing all bot moves to optimize flow and throughput while preventing collisions between bots, and interfacing to the world outside of the system.
TONE, in it’s most simple form, is “audio-beacon” technology. An instantaneous direct-to-device marketing & analytics technology platform, TONE uses imperceptible, embedded audio “tones” to deliver contextual content directly to mobile devices WITHOUT THE EXPENSIVE HARDWARE.
We integrate the customer’s entire brand journey.
AI Cash Register - The world's first image recognition YI Tunnel AI cash register
● The world's first image recognition unmanned cash register "look" at a glance to check out automatically
●Artificial intelligence anti-theft system algorithm to identify the early warning of theft
●Convenient for Consumers: Consumers place their products on the checkout counter without having to look for a QR code, without distinguishing between standard and non-standard products. Thescreen directly displays the price of the product and you can self-use WeChat or PayPal checkout
● The machine has now identified 10,000 SKUs and the number of identifications will increase exponentially
●In addition to standard products, you can also identify non-standard products such as vegetables, fruits, clothes, books, etc.
●Fast identification speed and high accuracy: The identification time of each item is 0.02 seconds and the accuracy rate is 99.7%. After the equipment is continuously applied, the checkout will be faster and more accurate than the cashier.
●Save on business costs: Breakthrough technology to replace RFID/barcode/POS machines, as well as cashiers
●Seamlessly connect with Super Business IT equipment : Do not change the existing IT infrastructure. The deployment cycle is between 1 week and 6 weeks.
●Extend the equipment life cycle: Based on deep learning technology, the machine has the function of self-optimization and updating, continuous learning after deployment, efficiency and accuracy will continue to increase.
YI Tunnel uses action semantic recognition technology to develop smart shelves to determine consumer shopping behavior, identify and retrieve product details for checkout. This global leading technology will completely replace RFID and help retailers develop unattended store business.
Super YI full visual recognition unmanned shop solution includes:
●Intelligent shelf based on image recognition and action semantic recognition technology
●Brush face access payment system, alternative mobile payment
●Artificial intelligence anti-theft system algorithm to identify the early warning of theft
YI Tunnel AI Intelligent Vending Machine
●Get consumer shopping behavior in real time
●Cloud supply and marketing management system
●At least 30 SKUs
●Reduce operating costs
YI Tunnel AI Anti-Theft - World's First AI Solution Scenario Application
Anti-theft damage has always been a pain point in the retail industry. YI Tunnel's world-first AI anti-theft system will completely change this situation.
Based on fused image-based video processing, computer vision, pattern recognition, statistical learning, artificial intelligence, and cognitive science, the system will perform semantic recognition of consumer actions and analyze the underlying data such as images or videos to extract human motion-related information. information.
According to the definition of theft by the merchant, the system implements automatic anti-theft alarm.
Face Recognition Technology Based on Deep Learning, Accurately Recognize Face Information in Marketplace to Provide Capabilities for Face Attribute Recognition, Key Point Localization, Face 1:1 Alignment, and Human Face 1:N Recognition
Using our creative design and bold vision, Next Shift Robotics specializes in creating material handling systems using collaborative mobile autonomous robots. Our company is focused on meeting the demands of the exploding e-commerce order fulfillment market. Our experienced designers and engineers bring enthusiasm to every project.
The age of autonomous transport: Matternet ONE is the first smart drone for transportation. Send things through the air — magically, with the touch of a button. Matternet ONE revolutionizes last-mile logistics, transforming the way you access things locally.
A new kind of vehicle: Matternet ONE is exclusively designed for transportation. Its centrally-located payload makes it exceptionally easy to load and unload. Its unique architecture makes it light and strong enough to transport 1 kilogram over 20 kilometers on a single battery charge. Secure routes that adapt to weather, terrain and airspace allow Matternet ONE to fly autonomously beyond line of sight, without the need for a human pilot.
Simple: Matternet ONE is so intuitive it can be flown by everyone. With just a few touches on our mobile app, this smart drone will self-fly between landing stations you’ve authorized. No pilot or expert needed.
Smart: Matternet’s cloud-based routing system does all the work for you. It guides the Matternet ONE along a secure route at low altitude – between 50-100 meters above ground – adjusting for inclement weather, avoiding tall buildings, mountains and restricted airspace.
Safe: Matternet ONE is built to be used around people. The guarded propellers, protected payload and encrypted network communications are designed for everything we could anticipate – the onboard parachute is designed for everything that we couldn’t.
Direct: Unlike a car or truck, Matternet ONE is able to travel the most direct route, avoiding traffic, impassable roads, rivers and challenging terrain. Matternet ONE enables you to leapfrog the obstacles that paralyze conventional transportation.
For everyone: Designed and built in California, Matternet ONE prototypes have been flown in the most remote places on earth and embraced by the most trusted organizations. From the extreme altitude of the Himalayas in Bhutan, to the dense rainforest of Papua New Guinea, our technology is built to help you do something that may seem impossible.
We want to see our technology used everywhere and by everyone, revolutionizing logistics in city centers and access to goods in the most remote places on earth.
Make things fly: More than two thirds of the goods we access everyday weigh less than 1 kilogram. Medicine, documents, electronic goods — our need to transport lightweight goods on-demand, efficiently and cost-effectively is growing every day. A network of Matternet ONE vehicles operating 24/7/365 is able to meet this demand at minimal cost and the smallest carbon footprint of any transportation system ever invented.
IPsoft offers a wide variety of IT outsourcing services, from management at the component device and network level to the analysis, design and management of complex processes. IPsoft’s service delivery model is fully aligned with ITILv3, the set of concepts, policies and procedures for IT management.
Amelia - The Most Human AI
Amelia is the most comprehensive AI platform on the market. She can increase the effectiveness of your operations by getting work completed more efficiently than ever before.
Amelia as your first Digital Employee. When you employ Amelia, you do not employ “a single agent” at a time, you get to switch on an entire digital workforce. She connects an organization's data, systems and customer engagement channels to deliver high performance throughout the value chain.
Dot Dot Dash is the letter u in Morse Code - a communication medium we are fascinated by because of its auditory, visual and tangible characteristics - relating to the multi-sensory experiences we create. Furthermore, the encoding / decoding model of communication relates to how we believe advertising and the storytelling landscape is evolving, engaging participants in the use and circulation of messages through participatory decoding.
Mini-computers, powerful microcontrollers, sensors, virtual and augmented reality platforms are increasingly becoming more affordable, customizable and distributed. Frameworks and libraries built for these technologies are typically open source and written in approachable, high-level languages. This fundamental democratization of technology has spawned a generation of "creative technologists," hybrid artists / coders whose role is largely experimental.
As participating members within this creative coding community, we at Dot Dot Dash develop experiences that thrive at the interplay of physical environments and human participation. These projects range from unique brand activations to purely artistic endeavors.
We're constantly on the hunt for the world’s most creative designers and companies for the greatest products in categories ranging from home audio to headphones, and unique design accessories from décor to watches to wallets and our selection is constantly evolving.
The IndoorAtlas core technology is based on magnetic positioning, which means that the solution is independent from external infrastructures such as radio access points. The magnetic-positioning core offers developers unprecedented scale and freedom when building location-based apps. IndoorAtlas can also integrate Wi-Fi and Bluetooth location information for optimized positioning performance.
The IndoorAtlas SDK is available for iOS and Android platforms, allowing developers to build location-based apps for a wide range of devices and users. iOS support makes IndoorAtlas the industry-leading cross-platform indoor positioning solution. Sign up and download the IndoorAtlas SDK to start building your IndoorAtlas-powered apps.
The core technology behind IndoorAtlas runs in the cloud, offering an always-up-to-date positioning service for app developers. New features are introduced seamlessly and made available worldwide at the same time. The cloud-powered service also provides developers with easy access to their application data.
IndoorAtlas offers industry-leading accuracy for free, making it the most cost-efficient indoor positioning solution available today.
This new social feature makes it possible for other users to try out positioning in all shared venues. Venue sharing is an opt-in feature and can be enabled in the map tool’s venue preferences.