What is an Example of a Patent?
If you’ve ever wondered what is an example of a patent, look no further. Here are a few examples: Coca-Cola’s iconic bottle shape, Google PageRank, 3D printing technology, and detecting computer viruses. These inventions are all protected under patent law. Moreover, you can monetize your inventions by selling your patents and products. What’s more, patents can also help you get ahead in your chosen field.
Coca-Cola’s unique bottle shape
A century ago, on Nov. 16, 1915, the Coca-Cola company patented the shape of its bottles. The glass bottle was so distinct that Coca-Cola was able to protect its trademarks by obtaining U.S. design patents for the contoured and ornamental bottles. This patent protection lasted for fourteen years, but the company managed to obtain federal trademark registration for its unique bottle shape in April 1960. Today, the Coca-Cola bottle remains a cultural icon and a symbol of American pride. It was featured on the cover of TIME magazine in 1950, and this patent covers the shape of the glass Coca-Cola bottle.
The shape of the bottle is one of the most well-known and iconic bottles in the world. Its shape has remained consistent and iconic since 1916. Despite the fact that you’re less likely to see Coca-Cola in a glass bottle these days, you can still find it in some retail stores. It is not necessary to include the Coca-Cola name when packaging your product.
Coca-Cola has hundreds of USPTO patents in various fields, including technology, software, and consumer goods. Many of these patents are design patents, and play a vital role in Coca-Cola’s IP protection strategy. In fact, Coca-Cola’s bottle shape is a patented design, and Coca-Cola has been extremely aggressive in using design patents to protect it.
A typical Coke bottle will have a patent statement underneath the name “Coca-Cola” on its side. While this is not a painted label, the bottle should date to one of five broad time periods. The earliest contoured bottle, however, was produced between 1938 and 1951. In addition, some older bottles of Coca-Cola still bear the original script, making it difficult to date without a date.
Design patents can protect a distinctive shape of a product, and this type of trademark protection is gaining in popularity. Coca-Cola’s rippled bottle shape, for example, was protected by a patent. In its patent, the company sought to trademark the rippled shape of its bottle, which was subsequently patented. A recent case in the United States demonstrates how a trademark can be protected.
In the case of Google PageRank, the patent states that its method is based on “computer implemented processes.” This method works by determining the distance between two web pages and their links. The shorter the distance, the higher the page rank is on Google’s search engine result pages. It is important to note, however, that there are no specific restrictions on the type of computer that can execute the process. In addition to its algorithm, the patent also covers software-on-a-disk and computer-readable mediums that have the page rank instructions.
In the Bilski case, Ray Chen, who represented the PTO, argued that the claim in Google’s patent was still patentable. But despite the reversal, the PageRank patent is looking bleak. Google has numerous other patents that do not even have formal limitations on the computer. Therefore, the patent may be challenged because of its technical complexity. Ultimately, the issue is whether the patent will stand up to the challenge.
The basic concept of PageRank is simple. A web site that is highly linked to other important sites is likely to be important. This means that any incoming link from a high-value page should have a high PageRank score. In contrast, a page with few incoming links is not necessarily important. In fact, it could even be purchased from another site’s owner. Regardless of the patent’s legal status, Google PageRank has helped millions of people around the world.
Google’s patent is based on the PageRank algorithm developed by Larry Page when he was a graduate student at Stanford University. Google licensed the patent rights from Stanford and is using it as a tool to keep up with the competition. PageRank, after all, was one of the most successful inventions of the last decade. While many people have questioned the patent’s validity, it was ultimately the result of a brilliant idea and a great deal of work.
PageRank was invented as a way for websites to determine their importance. Its algorithm consists of counting the number of links a page receives and checking the quality of those links. People can check their own page’s PageRank and compare it to others’. It was a huge hit when Google first came on the scene. With so many websites competing with each other, PageRank was the unique factor that set Google apart.
3D printing technology
The invention of 3D printing technology is an example of patented technology. This process involves extruding material from a digital image. The most common method of 3D printing is fused deposition modeling (FDM), which was developed after stereolithography. It usually costs the least. In some cases, a 2D photo can be used to create a 3D model. If this technique is successful, the invention will be patented.
In some cases, a patent protects an invention, but only if it is new. Currently, 3D printing technology is the subject of hundreds of patents, including those directed at hardware and software. This means that newer technologies may run into trouble if their patents cover a new software feature. Another problem that can arise with patented technology is patent evasion. 3D printing technology may become a target of patent trolls, which are non-practicing entities that aim to prevent new developments and innovations.
In one case, an individual or company may seek to patent a new invention, but this method is not unique. MakerBot claims that it has patented the idea of an automated build platform, which is an automated conveyor belt that advances prints off the print platform. However, this technology is not available to the general public because MakerBot’s patents protect it as an invention. If you wish to create an object that you can use to make money, consider a patent on 3D printing.
While patents for 3D printing technologies are increasingly common, their effects on industry are not so obvious. For example, 3D printers are being used to create weapons, in violation of federal law. Furthermore, many designs are being released to the public under CC licenses. Cody R. Wilson, the founder and CEO of Defense Distributed, published a design patent for a lower-receiver for the AR-15 weapons platform. In a subsequent tweet, Wilson said, “Western governments have already challenged this patent system, but it is still not ready to deal with 3D printing.
Despite the many advantages of 3D printing technology, the practice may undermine the incentives for innovation in the patent system. The Campbell University School of Law recently argued that CAD files, which serve as the digital versions of the invention, may infringe copyright. However, the digital files do not represent an actual tangible version of the invention. Consequently, the holder must prove infringement. Similarly, 3D printing technology may also undermine the incentives for innovation in the patent system.
Detecting computer viruses
Millions of computer users are susceptible to software viruses, but most of us have no idea how to fight them. IBM has developed patent-pending software that can detect and eliminate unknown viruses with the help of artificial intelligence. The new software notifies IBM’s central data center, which analyzes new viruses and sends warnings and information about the virus to users through their networks. It also sends antidotes, which can be downloaded for free from the company’s website.
The system is based on a pattern of bytes and seeks an exact match in a potential host. The virus is detectable only if the scanner knows this signature. Viruses are constantly evolving and the signatures are constantly being changed by malicious individuals. As such, new patents for this technology are being filed all the time. This means that the field of computer virus detection is becoming more sophisticated.
IBM classifies computer viruses into two categories – recognizable patterns of unwanted code and never-before-seen code. Viruses are typically created by human hands, but there are instances where they evolve on their own. The new invention is more efficient than previous methods, which require a virus detection program. This invention also addresses a more diverse set of platforms. It has the potential to be implemented in a number of different software programs.
In one embodiment, a virus is detected by comparing the signatures of different viruses that are part of the profile. In another embodiment, a single virus is identified by a set of two representative viruses. The result of this search is a “profile signature” containing the characteristics of the virus. These signatures are unique to each virus, and the patented method can identify the corresponding infected programs.
Antivirus engines analyze data from a file’s buffer and extract complex data from it. These programs can then analyze the file’s contents by examining relational signature objects. If they match all the criteria, the virus detection engine will identify the infection and remove it. It’s an incredibly complex process that uses multiple data items to ensure complete detection of a virus. Luckily, these new techniques are becoming increasingly effective, and the inventors have been busy implementing them for years.