Generative AI Use Cases in Data Analytics and BI

Machine learning and artificial intelligence aren’t the way of the future – they’re our present reality, and they’re only going to become more sophisticated as time goes by. If predictive AI is about using historical data to predict Yakov Livshits patterns, trends, and behavior, then generative AI is about creation. By analyzing historical data from your business using advanced algorithms, predictive AI can allow you to make more informed, data-driven decisions.

The solution to this problem can be synthetic data, which is subject to generative AI. Pioneering generative AI advances, NVIDIA presented DLSS (Deep Learning Super Sampling). The 3rd generation of DLSS increases performance for all GeForce RTX GPUs using AI to create entirely new frames and display higher resolution through image reconstruction. In marketing, generative AI can help with client segmentation by learning from the available data to predict the response of a target group to advertisements and marketing campaigns. It can also synthetically generate outbound marketing messages to enhance upselling and cross-selling strategies. In the future, generative AI models will be extended to support 3D modeling, product design, drug development, digital twins, supply chains and business processes.

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Predictive AI is focused on training machine learning algorithms on historical data to identify patterns, relationships, and trends. These models use the insights gained from the training data to make predictions about future Yakov Livshits occurrences. Generative AI refers to a type of artificial intelligence that involves training models to create original content. These models learn patterns from existing data and generate new data based on those patterns.

Predictive AI models are ideal for industries that rely on data analysis, like healthcare, finance, and marketing. Generative AI models are best suited to creative industries like film, writing, fashion, and art. It’s here that AI systems and AI research can be a valuable tool for your business – analyzing complex data in minutes to help improve effectiveness and boost return on investment (ROI). There are artifacts like PAC-MAN and GTA that resemble real gameplay and are completely generated by artificial intelligence. Here, a user starts with a sparse sketch and the desired object category, and the network then recommends its plausible completion(s) and shows a corresponding synthesized image.

Predictive AI vs. Generative AI: The Differences and Applications

Machine learning can also be used to segment customers based on various data points. For instance, AI can group customers with similar characteristics together based on demographics and attitudes. However, when you add in customer data you collect from your online store, it can be used to segment customers based on past purchase behavior. For instance, financial companies might use it to determine when to sell a stock based on past market behavior. Nevertheless, AI in marketing and business can help businesses learn how to improve sales, enhance the customer experience, and plan for the future.

Its adversary, the discriminator network, makes attempts to distinguish between samples drawn from the training data and samples drawn from the generator. The discriminator is basically a binary classifier that returns probabilities — a number between 0 and 1. And vice versa, numbers closer to 1 show a higher likelihood of the prediction being real. GANs were invented by Jan Goodfellow and his colleagues at the University of Montreal in 2014.

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Yakov Livshits
Founder of the DevEducation project
A prolific businessman and investor, and the founder of several large companies in Israel, the USA and the UAE, Yakov’s corporation comprises over 2,000 employees all over the world. He graduated from the University of Oxford in the UK and Technion in Israel, before moving on to study complex systems science at NECSI in the USA. Yakov has a Masters in Software Development.

Both technologies rely on sophisticated algorithms and deep learning techniques. They can leverage large datasets to generate insights and perform complex tasks. Additionally, both Generative AI and Predictive AI have the potential to revolutionize industries and drive innovation.

This includes basic problems but also complex ones as well, depending on the model. Another use case of generative AI involves generating responses to user input in the form of natural language. Music-generation tools can be used to generate novel musical materials for advertisements or other creative purposes. In this context, however, there remains an important obstacle to overcome, namely copyright infringement caused by the inclusion of copyrighted artwork in training data.

Its primary purpose is to analyze patterns in data to forecast potential outcomes or trends. Generative AI refers to a subset of AI that focuses on creating new and original content rather than simply recognizing or analyzing existing data. Unlike traditional machine learning algorithms that are programmed to make predictions based on a given set of data, generative AI algorithms are designed to create new data. This includes techniques such as generative adversarial networks (GANs) and variational autoencoders (VAEs). Predictive analytics is a branch of data science that uses statistical techniques and machine learning algorithms to analyze historical data and make predictions about future events. It is used to identify patterns and trends in data and make predictions based on those patterns.

• One challenge is that deep learning algorithms require large amounts of data to train, which can be time-consuming and costly.
• Generative AI algorithms can analyze patterns in financial transactions and identify anomalies that indicate fraudulent activities.
• With STS conversion, voice overs can be easily and quickly created which is advantageous for industries such as gaming and film.
• Neural networks are designed to mimic the structure of the human brain, and deep learning networks can have many layers of neurons that can recognize and analyze complex patterns in data.

One Google engineer was even fired after publicly declaring the company’s generative AI app, Language Models for Dialog Applications (LaMDA), was sentient. It can be fun to tell the AI that it’s wrong and watch it flounder in response; I got it to apologize to me for its mistake and then suggest that two pounds of feathers weigh four times as much as a pound of lead. Output from these systems is so uncanny that it has many people asking philosophical questions about the nature of consciousness—and worrying about the economic impact of generative AI on human jobs. But while all of these artificial intelligence creations are undeniably big news, there is arguably less going on beneath the surface than some may assume.

It can create new images, music, text, and even video content that is reminiscent of human creativity. Predictive AI is increasingly becoming a powerful tool for professionals in many industries. It enables us to create predictive models that accurately forecast behavior and provide actionable insights into customer and market trends. Generative AI and predictive AI represent two distinct approaches within the broader field of artificial intelligence.

These approaches enable organizations to efficiently leverage vast amounts of unlabeled data efficiently, laying the groundwork for foundational models. These foundational models act as a strong basis for AI systems capable of performing various tasks. Generative AI and predictive AI are two largely known branches of Artificial Intelligence that are now commonly used in the real world.

The solution for improving models to reduce these hallucinations starts with improving the training data to ensure accurate, diverse and unbiased datasets. AI developers can also test for vulnerability to hallucinations by simulating question-and-answer scenarios that are potentially confrontational. Having human reviews of certain outputs can also identify areas where proper context is not being provided. Techniques such as reinforced learning with human feedback (RLHF) are critical to leverage.