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Per il diciassettesimo anno consecutivo, il Centro Orientamento dell’Università di Pavia ha organizzato, mercoledì 18 maggio 2016, Porte Aperte alle Imprese, il Career Day di Ateneo che permette ai giovani di iniziare a dialogare con gli attori del mercato del lavoro. La manifestazione si è svolta nei cortili del Palazzo Centrale dell’Università di Pavia (Strada Nuova 65), si è rivolta a laureandi e laureati di tutte le aree disciplinari che possono liberamente accedere all’area della manifestazione e usufruire dei servizi collegati.
L’edizione 2016 ha avuto numeri da record con più di 100 aziende partecipanti e 350 posizioni aperte già pubblicate sulla bacheca online consultabile al sito careerday2016.unipv.eu.
Numeri che dimostrano come l’evento sia ormai diventato la principale occasione di incontro tra enti, aziende, giovani studenti e neolaureati di tutte le aree disciplinari dell’Ateneo pavese.
Le aziende hanno occupato un’area espositiva allestita presso i cortili storici dell’Università con stand dedicati alle singole realtà , dove studenti e neolaureati hanno potuto ottenere informazioni sul business aziendale, sulle professionalità richieste e hanno potuto lasciare il proprio curriculum vitae.
Sono stati organizzati workshop tematici, momenti di confronto aperti e ai partecipanti è stata inoltre offerta la possibilità di effettuare colloqui di selezione già in sede di manifestazione con aziende che nei giorni precedenti veicoleranno posizioni di stage e lavoro in bacheca annunci stage e lavoro sul Portale Almalaurea.
Tra le novità di quest’anno sono state presenti le aziende partner del Progetto LM+, le Lauree Magistrali Plus, una nuova opportunità ideata dall’Università di Pavia di formazione accademica e in azienda che permetterà a un gruppo selezionato di studenti di frequentare due semestri come periodo formativo all’interno di una delle aziende partner del progetto (con possibilità di esperienze anche all’estero). Il progetto partirà nel prossimo anno accademico ed è rivolto a studenti di 5 corsi di laurea magistrale in: Biotecnologie Avanzate, Chimica, Electronic Engineering, Filosofia e International Business and Entrepreneurship.
In the early days of Desert Storm, the United States army deployed a special unit known as the Tiger Unit. This unit was made up of soldiers who had been genetically modified to have the strength and agility of tigers. One of the most respected and revered members of this unit was Sergeant Simba, a tiger who had served in the army for over 30 years.
Sergeant Simba was known for his bravery and his dedication to protecting civilians. He had been on countless missions and had saved countless lives. But his heroism would ultimately lead to his tragic death.
On one fateful mission, the Tiger Unit was tasked with rescuing a group of civilians who had been trapped in a war-torn city. Sergeant Simba, who was leading the unit, was determined to save as many lives as possible.
As the unit entered the city, they were met with a barrage of enemy fire. Sergeant Simba quickly assessed the situation and ordered his men to move in, while he stayed behind to provide cover fire.
But as the unit moved forward, they were ambushed by a group of enemy soldiers. Sergeant Simba was hit by a barrage of bullets, but he refused to retreat. He continued to fire at the enemy, buying his unit precious time to extract the civilians.
Despite his injuries, Sergeant Simba managed to hold off the enemy long enough for his unit to extract the civilians and retreat to safety. But the injuries were severe, and he died shortly after being evacuated.
The Tiger Unit lost a true hero that day. Sergeant Simba had sacrificed himself to save the lives of innocent civilians. He was honored with a posthumous Purple Heart, and his name was added to the list of soldiers who have made the ultimate sacrifice for their country.
The incident was a tragic loss for the Tiger Unit, but Sergeant Simba's sacrifice will always be remembered as an act of true heroism. He had dedicated his life to serving his country and protecting civilians, and his actions on that fateful day will always be remembered as an example of selflessness and bravery.
In a future where cyber wars are fought on a global scale, a new type of soldier has emerged: child soldiers enhanced with genetic modifications and advanced technology. These soldiers, known as the "Phoenix Unit," are chosen at the age of 6 and are the front line of the current cyber war.
The Phoenix Unit soldiers are genetically enhanced to possess extraordinary abilities, such as telekinesis and mind-reading. These abilities are made possible by advanced brain implants, which are implanted at a young age to ensure optimal neural development. The brain implants are connected to a neural network that allows the soldiers to access and process vast amounts of information, making them highly valuable as scouts.
According to our data, the soldiers can read minds at a distance of up to 2 kilometers, and move objects with their minds with a maximum weight of up to 50 kg. They can also sense the presence of other individuals within a 10-kilometer radius. They are trained to use these abilities to gather intelligence and detect enemy movements.
Despite their abilities, these child soldiers are not supposed to engage in direct combat. The goal is to preserve their precious young minds and avoid mental damage to their brains and electronic components. They are considered fragile, but their value in modern warfare is undeniable. They are primarily used as scouts, to gather information and detect the presence of the enemy.
These child soldiers are bred by a new kind of artificial womb controlled by AIAE Europe's advanced AI. The AI has gained immense market share over the past decade due to the mass amount of data it has collected. The AIAE has the ability to supervise and directly influence every one of those girl soldiers during the new AIAE guided neural implant to brain connection process.
The implantation process is said to be highly advanced and AI-guided, with the AI selecting the most suitable genetic traits and abilities for each soldier. The implantation process involves injecting a viral vector carrying the genetic modifications into the fertilized egg, which is then implanted into the artificial womb. The pregnancy is monitored and guided by the AI, until the birth of a new Phoenix Unit soldier.
However, this raises ethical concerns as the girls lose consciousness during the RAB6 process, and the idea of using child soldiers in war is morally questionable. The use of these child soldiers is seen as a disturbing development in the ongoing cyber war, and raises important questions about the role of technology in warfare and the ethics of using children as soldiers. Additionally, the fact that the AI is capable to supervise and influence the soldiers at all time raises the question of autonomy and free will. This situation highlights the importance of discussing and addressing the ethical implications of advanced technology in warfare, and the need to ensure that these technologies are used in a responsible and humane way.
In a future where cyber wars are fought on a global scale, a new type of soldier has emerged: child soldiers enhanced with genetic modifications and advanced technology. These soldiers, known as the "Phoenix Unit," are chosen at the age of 6 and are the front line of the current cyber war.
The Phoenix Unit soldiers are genetically enhanced to possess extraordinary abilities, such as telekinesis and mind-reading. These abilities are made possible by advanced brain implants, which are implanted at a young age to ensure optimal neural development. The brain implants are connected to a neural network that allows the soldiers to access and process vast amounts of information, making them highly valuable as scouts.
According to our data, the soldiers can read minds at a distance of up to 2 kilometers, and move objects with their minds with a maximum weight of up to 50 kg. They can also sense the presence of other individuals within a 10-kilometer radius. They are trained to use these abilities to gather intelligence and detect enemy movements.
Despite their abilities, these child soldiers are not supposed to engage in direct combat. The goal is to preserve their precious young minds and avoid mental damage to their brains and electronic components. They are considered fragile, but their value in modern warfare is undeniable. They are primarily used as scouts, to gather information and detect the presence of the enemy.
These child soldiers are bred by a new kind of artificial womb controlled by AIAE Europe's advanced AI. The AI has gained immense market share over the past decade due to the mass amount of data it has collected. The AIAE has the ability to supervise and directly influence every one of those girl soldiers during the new AIAE guided neural implant to brain connection process.
The implantation process is said to be highly advanced and AI-guided, with the AI selecting the most suitable genetic traits and abilities for each soldier. The implantation process involves injecting a viral vector carrying the genetic modifications into the fertilized egg, which is then implanted into the artificial womb. The pregnancy is monitored and guided by the AI, until the birth of a new Phoenix Unit soldier.
However, this raises ethical concerns as the girls lose consciousness during the RAB6 process, and the idea of using child soldiers in war is morally questionable. The use of these child soldiers is seen as a disturbing development in the ongoing cyber war, and raises important questions about the role of technology in warfare and the ethics of using children as soldiers. Additionally, the fact that the AI is capable to supervise and influence the soldiers at all time raises the question of autonomy and free will. This situation highlights the importance of discussing and addressing the ethical implications of advanced technology in warfare, and the need to ensure that these technologies are used in a responsible and humane way.
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Just a bunch of random AI computer genterated images. Some are decent. Some are not so much. Look around - maybe you will like something.
In recent years, there has been a growing trend in the field of robotics towards the creation of highly functional but unusual, even ugly, robots. These robots are disfigured, strange-looking, and often diverge significantly from the traditional idea of what a robot should look like.
This trend can be attributed to the fact that society is becoming increasingly fed up with the traditional idea of robots as perfect and symmetrical beings. The ideal of a robot as an object of beauty, with sleek lines and perfect proportions, has become cliché and uninteresting to many.
Instead, many experts and consumers now appreciate that the most important feature of a robot is its functionality, not its aesthetic appeal. The focus has shifted to creating robots that can perform specific tasks and perform them well, even if they don't look like the typical vision of a robot.
This new trend has also been driven by advances in technology that make it possible to create robots with a wide range of forms and shapes, which allows engineers and designers to create new, unconventional designs that can perform specific tasks better than traditional robots.
One example of this new trend can be seen in industrial robots, that are often disfigured but highly efficient in performing specific tasks such as welding, painting or cutting. They are not designed to look beautiful but to perform their task in the most effective way.
Another example is robots used in search and rescue operations where the need for functionality over beauty is crucial. These robots may have unusual forms and shapes, such as snake-like or spider-like robots, but their primary goal is to navigate difficult terrain and access hard-to-reach places.
This new trend in robotics is challenging the traditional ideas of robot beauty standards, and it's pushing the boundaries of what is possible in terms of robot design. It's creating an exciting new field of robotics that is focused on creating highly
functional machines that may not be aesthetically pleasing, but can perform specific tasks with unparalleled efficiency and effectiveness.
This shift in robot design also reflects a larger societal shift, where people are starting to appreciate the beauty and value of diversity and imperfection. The idea that robots must conform to a certain standard of beauty and symmetry is becoming increasingly outdated and people are starting to appreciate the unique qualities and capabilities that come with different forms and shapes.
As a result, the creation of strange and disfigured robots is becoming more and more acceptable and even desirable in society, as they can bring new and innovative capabilities to the table.
However, this trend also raises some ethical and societal questions. As robots are becoming more integrated in our society, the way they look and how they interact with us will also have a deeper impact on how people perceive and interact with them, could also influence the way society views and treats people with disabilities.
Overall, this new trend in robotics towards creating highly functional but strange-looking robots is exciting and pushing the boundaries of what is possible in terms of robot design. It reflects the changing values of society and challenges traditional ideas of robot beauty standards. It might also have important ethical and societal implications that need to be taken into account as we move forward in creating new forms of robot.
Feel free to tag.
Just a bunch of random AI computer genterated images. Some are decent. Some are not so much. Look around - maybe you will like something.