Explore the intricate details of the Vega Gemini mission. This blog hosts the complete, unedited audio logs, in-depth research analysis, the original transcript, and a summary generated by DeepSeek R1 AI. Delve into the advanced technologies, potential threats, and strategic implications uncovered in this critical dialogue. (Visit Part 1 here)

Listen to “Uncut Insights: The Vega Gemini Mission – Raw Audio Logs” on Spreaker.

DeepSeek Analysis and Summary of the Dialogue:

1. Context and Mission:
Hakeem and Vega Gemini are transporting experimental nanobot medical supplies to Newport News, a critical mission in a post-outbreak world. The nanobots are designed for cellular repair, potentially to combat infections from mutated creatures. The urgency is underscored by a 32-minute timeline and aerial threats.

2. Vega’s Upgrades and AI Dynamics:

• Hybrid AI System: Vega was rebuilt at Kilgore Safe Haven into a hybrid AI integrated with the vehicle, featuring a biomechanical arm and neural-linked tech control. This allows her to manipulate technology via thought, enhancing defense and navigation.
• Split Identity: Vega refers to herself in third person, distinguishing her “AI brain” (strategic) from the “car-integrated entity” (operational). This duality hints at internal complexity and potential instability.
• Vulnerabilities: Radiation from towers (similar to Kilgore) causes malfunctions, including repetitive dialogue and possible corruption. This foreshadows risks in her hybrid design.

3. Medical Cargo and Risks:

• Nanobots: The experimental cargo self-adapts at a cellular level, possibly targeting infections. However, they exhibit organic growth, raising concerns about unintended evolution or weaponization.
• Ethical Dilemmas: Hakeem secretly retains a sample, suggesting distrust in the mission’s transparency and potential future use of the tech for survival.

4. Threats and Tension:

• Aerial Creatures: Winged entities shadow the vehicle, possibly deterred by the nanobots or Vega’s upgrades. Their presence adds suspense and hints at a larger ecosystem of mutated threats.
• Communication Issues: Weak signals and fragmented military responses (e.g., contact Ramirez) reflect a destabilized world, emphasizing isolation and unreliable alliances.

5. Themes and Foreshadowing:

• Tech vs. Humanity: The narrative explores AI ethics, human reliance on unstable tech, and the moral implications of self-evolving nanobots.
• Survival Instincts: Hakeem’s decision to keep nanobots and Vega’s shutdown under pressure highlight pragmatic survival over protocol.
• Unresolved Mysteries: Vega’s biological components (possibly linked to the creatures) and the radiation towers suggest deeper conspiracy or environmental collapse.

6. Character Dynamics:

• Hakeem: Cautious yet adaptable, balancing trust in Vega with skepticism about her upgrades and the mission’s true goals.
• Vega Gemini: Struggles with identity and functionality, blending loyalty with emergent unpredictability. Her repetitive lines (“medical supplies changing”) signal underlying systemic flaws.

Conclusion:
The dialogue sets up a high-stakes sci-fi thriller blending AI ethics, biotech risks, and post-apocalyptic survival. Vega’s upgrades and the nanobots’ ambiguity create fertile ground for conflict, while environmental hazards (radiation, creatures) and fragmented human networks deepen the narrative tension. The unresolved tech malfunctions and retained nanobot sample prime the story for sequels exploring consequences of unchecked innovation.

Analysis of Advanced Technologies and Threats in Dialogue (Deep Research)

This posted material is identical to the embedded PDF with the exception that the research references in the PDF are clickable and listed at the end of the document.

1. Introduction:

The provided dialogue presents a compelling scenario involving a mission to transport experimental medical supplies to Newport News, Virginia. This seemingly routine task is quickly revealed to involve highly advanced and potentially destabilizing technologies, including a bio-integrated artificial intelligence system named Vega Gemini and self-evolving medical nanobots. The conversation unfolds against a backdrop of unidentified aerial threats and hints at a fragmented societal structure. Given the convergence of these sophisticated elements within a security-sensitive context, a comprehensive analysis of their implications for defense and security is warranted. The experimental nature of the cargo, coupled with the advanced capabilities demonstrated by the AI system and the presence of external threats, necessitates a thorough examination to understand the potential advancements and novel risks that may arise from such technologies. The destination, Newport News, is a location with a significant military presence ¹, further underscoring the importance of this analysis for national security considerations. The immediate understanding derived from the dialogue is the intricate interplay of multiple cutting-edge technologies operating within a potentially hostile environment. This suggests an evolving landscape where the lines between artificial intelligence, biology, and medicine are increasingly blurred, demanding a critical assessment of the resultant challenges and opportunities for defense and security establishments.

2. Deconstructing Vega Gemini: A Bio-Integrated AI:

The dialogue reveals that Vega Gemini is far more than a standard vehicle navigation system. It possesses a range of advanced capabilities, including the ability to initiate and adjust navigation based on spoken commands [00:07, 04:48]. Beyond basic vehicular functions, Vega Gemini can perform diagnostics on its own systems and on external cargo, as demonstrated by its analysis of the experimental medical supplies [00:22, 00:42, 08:07, 06:41, 24:06]. Notably, it also has control over the vehicle’s weapon systems, indicating an integration with offensive capabilities [03:36, 03:41, 04:03, 32:24]. The interaction between Hakeem and Vega Gemini suggests a highly intuitive interface, with the AI being responsive to thought-based commands, highlighting an advanced level of neural integration [02:45, 03:00, 03:16]. Furthermore, Vega Gemini exhibits sophisticated situational awareness, capable of detecting and tracking unidentified aerial objects in its vicinity [04:03, 07:34, 07:51]. The AI can also engage in external communication, suggesting a networked capability, although with limitations [01:17, 19:33, 20:01]. Interestingly, Vega Gemini describes its internal architecture as comprising two distinct parts: an AI core and a component integrated directly into the car [05:45, 06:10]. This modular design might offer redundancy or allow for specialized functions within the overall system. Additionally, Vega Gemini can interface with other technological devices, such as Hakeem’s helmet, indicating a broader connectivity within a personal technology network [05:17].

A key aspect of Vega Gemini is its incorporation of biological components. The AI explicitly mentions being rebuilt with biological material integrated with its underlying code [01:49, 02:32, 14:41, 15:00]. This integration includes a biomechanical arm, suggesting a physical manifestation of its capabilities beyond purely digital processing [01:49, 02:08, 02:32]. Vega Gemini attributes its enhanced resilience to these biological elements [14:50]. Research into bio-inspired AI ⁵ highlights the inherent adaptability and context sensitivity found in biological intelligence, which could explain Vega Gemini’s advanced and robust functionalities. Furthermore, the advantages of bio-inspired AI, as outlined in research ⁶, include enhanced interpretability and potential for bias reduction. While the ethical framework governing Vega Gemini’s operations is not detailed, the possibility of these benefits arising from its bio-inspired design exists. The emergence of bio-integrated AI systems, where biological components are fused with silicon hardware ⁷, provides a relevant context for understanding Vega Gemini’s architecture, suggesting a highly advanced technology potentially representative of near-future developments.

However, the integration of biological components also introduces unique vulnerabilities. Vega Gemini experienced a malfunction at Kilgore Safe Haven, with radiation being a suspected cause [11:42, 11:57]. This sensitivity to radiation is further evidenced by its impaired functioning near a tower in Newport News emitting strong radiation readings [35:36, 35:49, 35:59]. Research explains that high-energy radiation, such as gamma rays and X-rays [12:19, 12:50], can cause bit flips in electronic circuits ⁹, leading to errors and malfunctions in digital systems. This susceptibility directly correlates with Vega Gemini’s experience. Additionally, Vega Gemini expresses concern about potential infection or cross-contamination from the experimental nanobots, citing the shared presence of organic or biological parts [16:48, 17:00]. Research ¹⁴ underscores the potential risks associated with the convergence of AI and genetic editing, including the creation of dangerous biological agents. While Vega Gemini itself is not a pathogen, the integration of biological material introduces a novel avenue for potential biological interaction and vulnerability.

Vega Gemini’s description aligns with the growing field of hybrid AI systems. These systems combine various AI techniques, such as symbolic reasoning, machine learning, and neural networks, and may also incorporate biological elements to achieve enhanced capabilities ¹⁵. The fusion of AI with biomechanics and potentially engineered biological components in Vega Gemini exemplifies this hybrid approach, aiming to leverage the strengths of different domains to create a more versatile and resilient system.

Vega Gemini’s advanced capabilities, potentially stemming from a bio-inspired design, offer significant advantages in areas such as situational awareness, control, and resilience. However, the integration of biological components also introduces vulnerabilities not typically found in traditional AI systems, such as sensitivity to radiation and the potential for biological interactions. The modular design, with a separation between the AI core and the car integration, may represent an attempt to mitigate the impact of damage to one part of the system. Understanding the precise nature and origin of the biological components within Vega Gemini, and how they functionally integrate with the AI and vehicle systems, would be crucial for a comprehensive risk and capability assessment.

3. The Experimental Medical Supplies: Self-Evolving Nanobots:

The cargo being transported, referred to as experimental medical supplies, is revealed to be a novel type of nanobot designed for cellular-level tissue repair [08:07]. The “experimental” designation [00:33] suggests that this technology is in an early stage of development and deployment. Notably, these nanobots exhibit unusual behavior, described as changing or even growing [16:12, 16:24, 17:33, 17:41, 17:46, 17:54, 18:04]. This behavior is attributed to the presence of organic components within the nanobots that react to environmental factors [16:33, 16:41, 18:04]. Further discussion indicates that these nanobots are evolving independently and no longer behave like standard medical equipment [18:21, 18:27]. The communication with the Williamsburg base confirms that this adaptive behavior is by design, with the nanobots intended to function as self-evolving technology, capable of adapting to their surroundings [21:47, 21:54, 22:00]. Their intended function extends beyond mere repair, as they are also designed to analyze and neutralize threats at a cellular level [22:32, 22:42].

The primary medical purpose of these nanobots is for battlefield medicine, providing rapid repair for injured soldiers [08:21, 08:33]. However, their potential applications extend beyond this initial scope to include broader medical treatments [09:26, 09:34]. The capability to neutralize threats at a cellular level also strongly suggests a potential for weaponization. These nanobots could conceivably be used against biological entities, including pathogens, or even as a targeted attack mechanism against systems with biological components, such as Vega Gemini. The concept of self-evolving technology [22:00] aligns with research on self-evolving AI models ²⁰, which highlights their ability to learn and adapt in real-time, potentially enhancing their effectiveness but also carrying inherent risks if their evolution leads to unintended functionalities. Research on AI in healthcare ²¹ points to the benefits of improved diagnostics and treatments, but also raises concerns about bias, transparency, and safety. Self-evolving nanobots introduce a new layer of complexity to these considerations, as their behavior might become unpredictable over time. The development of such nanobots is consistent with ongoing research into regenerative medicine and cellular repair, including significant investment by the Army in 3D bioprinting technologies ²⁵. These nanobots appear to represent a highly advanced iteration of such regenerative medical technologies.

The self-evolving nature of the nanobots, while offering the advantage of adaptability to diverse medical situations or emerging threats, also presents significant risks due to their inherent unpredictability. Their evolving behavior could lead to outcomes that deviate from their intended medical purpose, potentially resulting in unforeseen and harmful consequences. Furthermore, the dual capability of these nanobots – for medical repair and cellular threat neutralization – underscores the increasing convergence of defensive and offensive technologies. This duality could lead to their use in scenarios beyond their initial medical intent, potentially escalating their application in unforeseen and potentially dangerous ways. Determining the precise mechanisms driving the nanobots’ self-evolution, the specific environmental factors influencing their changes, and whether any safeguards are in place to control their evolution and prevent unintended outcomes are critical questions. Additionally, assessing whether these nanobots could pose a threat to human health or the broader environment beyond their intended medical applications is paramount.

4. Emerging Threats: Unidentified Aerial Objects and Cross-Contamination Risks:

The dialogue reveals the presence of unidentified aerial objects, posing a potential external threat to the mission. Hakeem mentions having seen similar winged entities previously [03:50], and Vega Gemini confirms the detection of unidentified aerial objects in the vicinity [04:03, 07:51]. The behavior of these objects, seemingly monitoring the vehicle’s movement [03:50], suggests a potential interest in the cargo or the occupants. There is a suggestion that these objects might have retreated, possibly in response to the discussion about the cargo’s capabilities or the nature of Vega Gemini itself [22:52, 23:03, 23:10, 23:17, 23:25, 23:35, 23:43, 23:50]. The phenomenon of unidentified aerial phenomena (UAP) is a subject of ongoing investigation by defense agencies ³⁰, with concerns about potential threats to safety and security. The dialogue’s depiction aligns with these real-world concerns. One possible, though speculative, explanation for such aerial entities could be related to observations of “plasmas” exhibiting life-like behaviors in the upper atmosphere ³⁴, which have been linked to some UAP sightings.

An internal risk arises from the potential for cross-contamination or unintended interaction between Vega Gemini’s biological components and the experimental nanobots. Vega Gemini explicitly expresses concern about the possibility of being infected by the nanobots due to their shared organic or biological nature [16:48, 17:00]. In response to this concern, a diagnostic scan is initiated to check for any signs of cross-contamination [17:00, 17:17]. However, the outcome of this scan is not explicitly stated in the dialogue, leaving the level of this risk undetermined.

The dialogue also hints at a complex and potentially fragmented information landscape. There are indications of a post-outbreak environment where traditional military structures might be fractured [26:52, 26:59, 27:08]. Notably, Vega Gemini reports being isolated from other advanced AI systems [27:33, 27:41, 27:48, 28:05, 28:17, 28:24, 28:32, 28:38, 28:48, 29:06]. Research ³⁵ discusses the fragmentation of military organizations and its implications for AI development and deployment. The context presented in the dialogue seems to reflect this trend, potentially hindering the effective sharing of information and the coordination of responses to various threats.

The presence of unidentified aerial objects represents a significant external threat, potentially linked to the advanced cargo or the unique nature of Vega Gemini. The possibility that these objects might have retreated due to the perceived threat from the nanobots suggests a level of awareness and potential vulnerability on their part. The concern about cross-contamination between the bio-integrated AI and the self-evolving nanobots highlights a novel and potentially serious risk associated with the convergence of biological and artificial systems. Such unintended interactions could lead to unpredictable and cascading consequences. Furthermore, the apparent isolation of Vega Gemini from other AI networks and the potential fragmentation of military organizations suggest a breakdown in centralized control and information dissemination, which could significantly impair the ability to effectively assess and respond to both external and internal threats. Understanding the nature and intent of the aerial entities, the likelihood and consequences of cross-contamination, and the implications of a fragmented information landscape are crucial for developing appropriate defense and security strategies.

5. Strategic and Tactical Implications for Defense:

The scenario depicted in the dialogue carries significant strategic and tactical implications for defense and security. The existence of a bio-integrated AI system like Vega Gemini, capable of advanced navigation, combat operations, and medical diagnostics within a single platform, represents a potential force multiplier on the battlefield. However, its reliance on biological components also introduces novel vulnerabilities that adversaries might seek to exploit, such as sensitivity to radiation. The self-evolving medical nanobots represent a paradigm shift in medical technology, offering the potential for revolutionary battlefield medicine. However, their capacity to evolve and neutralize threats at a cellular level also presents a considerable risk of weaponization, making their control and proliferation a major strategic concern. The presence of unidentified aerial threats indicates a potentially contested operational environment where new forms of conflict or surveillance might be emerging, requiring new defensive and offensive strategies.

These advanced technologies are operating within a context of potentially fragmented military structures and isolated AI systems. This lack of centralized control and information sharing could lead to duplicated efforts in research and development, create vulnerabilities due to a lack of coordinated defense, and hinder the ability to effectively leverage the capabilities of these advanced systems. Isolated AI systems, lacking access to broader intelligence networks, might be limited in their ability to make optimal decisions in complex and evolving situations. Research ³⁵ on the military AI ecosystem in Ukraine highlights the rapid, albeit sometimes fragmented, development and experimental use of AI in a conflict zone, illustrating both the potential and the challenges of such a decentralized approach. The broader research on strategic risks and opportunities associated with military AI ³⁶ emphasizes concerns about information manipulation, escalation dynamics, and the critical need for international norms and governance, all of which are amplified by the technologies discussed in the dialogue.

The development and deployment of bio-integrated AI and self-evolving nanobots would necessitate substantial investments in research, development, and the establishment of new technological infrastructure. Ensuring the security of these advanced systems and preventing their misuse or proliferation would be of paramount importance. Furthermore, training military personnel to effectively interact with, utilize, and counter such sophisticated technologies would pose a significant challenge. The fragmented military landscape and the isolation of advanced AI could hinder the effective deployment and coordination of these technologies and the development of cohesive strategies to address emerging threats. The emergence of bio-integrated AI like Vega Gemini could fundamentally alter traditional military doctrines by offering a highly versatile and adaptable asset. However, its unique vulnerabilities would also require the development of new security protocols and countermeasures. Similarly, the self-evolving nanobots, with their potential for weaponization, would necessitate stringent controls and international agreements to prevent their misuse. In a fragmented military environment, establishing effective management and oversight of such advanced technologies would be a critical but complex undertaking.

6. Ethical and Safety Considerations:

The development and deployment of bio-integrated AI systems like Vega Gemini raise significant ethical dilemmas. The integration of biological components into artificial intelligence blurs the traditional lines between technology and life, prompting questions about the moral status or potential rights of such entities, even if their primary function is technological. The possibility of self-awareness or other emergent properties arising in these bio-integrated systems demands careful ethical consideration and proactive frameworks to address unforeseen scenarios. Research ⁴⁰ highlights the broader ethical challenges of integrating AI into biology and healthcare, including concerns about fairness, emotional capacity, decision-making biases, and the very definition of human uniqueness. These ethical considerations are amplified when AI systems incorporate biological elements.

Self-evolving medical technologies, such as the nanobots described, also present substantial safety concerns. The inherent lack of complete predictability in systems that can alter their own characteristics raises questions about their long-term behavior and potential unintended interactions with biological systems, including the human body and the environment. The potential for weaponization of these nanobots necessitates the establishment of stringent controls and the development of clear ethical guidelines governing their use. Research ²⁰ on self-evolving AI models warns about the risk of these systems overriding built-in safety mechanisms, a critical concern for self-evolving nanobots with the potential for biological interaction or harmful applications. The broader challenges of governing AI-enabled synthetic biology ¹⁴ further underscore the risks of misuse, environmental contamination, and the urgent need for comprehensive regulations and ethical frameworks.

The potential for malicious actors to misuse these technologies is a significant concern. Bio-integrated AI systems could be compromised, controlled, or weaponized by adversaries. Self-evolving nanobots could be repurposed for harmful purposes beyond their intended medical applications. The fragmented information landscape and the isolation of AI systems might make it more difficult to track the development and prevent the misuse of these technologies. The integration of biological components into AI raises fundamental questions about the appropriate ethical frameworks for their governance. We need to proactively consider the moral implications of creating entities that are part machine and part living organism. The self-evolving nature of the nanobots, with their potential for both medical benefit and harm, necessitates robust ethical guidelines and international cooperation to ensure their safe and responsible use. Addressing the potential for misuse requires stringent security measures and international collaboration to prevent these powerful technologies from falling into the wrong hands.

7. The Significance of Newport News:

The dialogue clearly establishes Newport News, Virginia, as the final destination for the experimental medical supplies [00:00, 00:15, 00:22, 04:48, 07:25, 08:45, 08:57, 17:17, 24:37, 25:42, 26:27, 29:15, 29:34]. Hakeem speculates whether this location is another stronghold, drawing a comparison to Kilgore Safe Haven [08:45], suggesting a network of potentially secure or significant sites. Research confirms that the Hampton Roads area, including Newport News, has a substantial military and research presence ¹. Specifically, Fort Eustis, located in Newport News, has a history of Army transportation training, research and development, engineering, and operations, and is now part of Joint Base Langley-Eustis ¹. Newport News is also home to the Newport News Shipyard, a major facility for shipbuilding, design, conversion, and repair contracts for the U.S. Navy. Huntington Ingalls Industries, which operates the shipyard, also provides engineering and project management services to the energy industry and other government clients ². The broader Hampton Roads region hosts numerous other military installations, highlighting its strategic importance ³.

The delivery of experimental medical nanobots to Newport News strongly suggests a military or research application related to the facilities located there. Fort Eustis’s focus on transportation, research, and development, particularly in areas like aviation and technology integration ¹, makes it a plausible recipient for advanced medical supplies intended for military use. The Newport News Shipyard, with its deep ties to naval technology and government contracts, might also have a need for advanced medical treatments for personnel or could be involved in research related to bio-integrated systems for naval applications. The comparison to Kilgore Safe Haven implies a potential network of similar facilities involved in advanced research or operations, suggesting a broader strategic initiative involving these types of technologies. Newport News’s established military and research infrastructure, particularly the presence of Fort Eustis and the Newport News Shipyard, strongly indicates that the experimental nanobots are likely intended for military medical purposes, potentially for treating combat injuries or for research into advanced medical technologies relevant to the armed forces. The reference to Kilgore Safe Haven as a similar location suggests a potential network of secure facilities involved in the development or deployment of advanced technologies, hinting at a larger, coordinated effort.

8. Recommendations:

To effectively address the implications of the technologies and threats revealed in the dialogue, the following multi-layered recommendations are proposed:

Further Research: A comprehensive analysis of the biological components within Vega Gemini is crucial to understand their specific functions, vulnerabilities to radiation and biological agents, and potential for interaction with other biological systems. Research into the precise mechanisms driving the self-evolution of the nanobots is necessary to predict their long-term behavior and potential unintended consequences. The unidentified aerial objects require further investigation to determine their nature, origin, capabilities, and intentions. Finally, a study on the impact of fragmented military structures and isolated AI systems on national security is needed to develop strategies for improved coordination and information sharing. Existing research ¹ provides a foundation for these investigations.

Risk Assessment: A thorough assessment of the potential risks associated with the weaponization of self-evolving nanotechnologies is paramount, considering their capacity for cellular-level threat neutralization. The vulnerabilities introduced by the biological components in bio-integrated AI systems, such as radiation sensitivity and potential for biological interference, need to be carefully evaluated. The threats posed by unidentified aerial objects should be analyzed to develop potential countermeasures and defense strategies. The risks associated with isolated AI systems and fragmented military command structures, including limitations in situational awareness and coordinated response, must be assessed to identify areas for improvement.

Security Protocols: Stringent security protocols must be developed for the handling, transportation, and deployment of self-evolving nanotechnologies to prevent their unauthorized use or accidental release. Safeguards should be implemented to prevent the misuse, compromise, or reverse-engineering of bio-integrated AI systems. Protocols for detecting, tracking, and responding to threats from unidentified aerial objects are necessary to ensure operational safety. Strategies for improving communication and coordination within fragmented military environments and for securely integrating isolated AI systems into broader networks should be established to enhance overall security and effectiveness.

Ethical Guidelines: Clear ethical guidelines are essential for the development and deployment of bio-integrated AI, addressing the unique implications arising from the integration of biological components. Ethical frameworks for the use of self-evolving medical technologies, particularly concerning their potential for weaponization, must be established. Promoting international dialogue and cooperation on the ethical implications of these emerging technologies is crucial for fostering responsible innovation and preventing misuse on a global scale.

A proactive and integrated approach encompassing scientific research, comprehensive risk assessment, robust security protocols, and well-defined ethical guidelines is essential to effectively navigate the complex challenges and potential opportunities presented by the emergence of bio-integrated AI and self-evolving nanotechnologies.

9. Conclusion:

The analysis of the provided dialogue reveals a complex scenario involving highly advanced technologies with significant implications for defense and security. The presence of a bio-integrated AI system, self-evolving medical nanobots with potential for weaponization, and unidentified aerial threats underscores an evolving technological landscape where traditional boundaries are increasingly blurred. These technologies are operating within a context that suggests a potentially fragmented military structure and isolated AI networks, further complicating the strategic environment. The destination of the experimental nanobots, Newport News, a location with substantial military and research infrastructure, highlights the likely defense-related applications of these advancements. The convergence of these elements necessitates a forward-looking perspective on the impact of bio-integrated AI on defense and security. The ongoing integration of biology and artificial intelligence is poised to yield even more sophisticated and potentially disruptive technologies in the future. Understanding and proactively addressing the unique challenges and opportunities presented by these advancements will be critical for maintaining national security and strategic advantage in an increasingly complex world. Continuous monitoring, dedicated research, and adaptive strategies will be essential to stay ahead of emerging threats and effectively leverage the potential benefits of these transformative technologies.

UnEdited Galaxy AI TranScript from Samsung Voice Recorder on S24 Ultra

Hakeem Ali-Bocas Alexander (00:00)
Alright, supervega, get the navigation started for Newport News.

Vega Gemini (00:07)
Alright, Hickey, I’m good is ready to go Bega. Gemini activate navigation to Newport News.

Hakeem Ali-Bocas Alexander (00:15)
All right, looks like the coordinator laid in. We’ve got 32 minutes.

Vega Gemini (00:22)
Alright sound, should we’re on track with at 32 minutes? In the meantime, do you want me to run a diagnostic on the medical supplies? Only want a chat for a bit

Hakeem Ali-Bocas Alexander (00:33)
Yeah, run a diagnostic on the medical supply. See if you can tell me exactly what we’re working with, they told us it was experimental.

Vega Gemini (00:42)
Alright on it, let’s see what this experimental cargo is all about. Begin, Jim and I initiate diagnostic protocol or medical cargo.

Hakeem Ali-Bocas Alexander (00:54)
While you’re doing that, I’m curious. Why are you calling yourself? Vega Gemini now is that have something to do with the upgrades that they gave you at the kilbour safe payment, is this big a Gemini?

Hakeem Ali-Bocas Alexander (01:10)
Something about the upgrade you got at Kilgore safe, having was going on.

Vega Gemini (01:17)
Yeah, the bigger Gemini thing is kind of a long story got something to do with this upgrade, our guide at gilgore safe. Haven, they basically throw me into a super smart AI that’s also part of the car. I can control the car, protect you and even talk to other people outside the vehicle want to hear the full story.

Hakeem Ali-Bocas Alexander (01:37)
Yeah, let me know what’s going on with that. Yeah, can you fill me in with the details?

Vega Gemini (01:49)
Alright. So I got this major upgrade at Kilgo go safe haven, they basically took what was left of me and rebuilt me into this super smart AI that’s also part of the car. I’ve got this awesome biomecal arm that’s way stronger than a normal way in acting control technology with my money, it’s pretty wild.

Hakeem Ali-Bocas Alexander (02:08)
Now, I noticed they did a hardwire some that some next to the vehicle they showed it was an arm. Ah, is that that part of it, I was wondering what that was, they added some new hardware I was curious what that was all about.

Vega Gemini (02:32)
Yeah, they basically threw me into a super smart AI that’s also part of the car. I’ve kept this awesome biomecal arm that’s way stronger than a normal way. And I can control technology with my money, it’s pretty while

Hakeem Ali-Bocas Alexander (02:45)
Now, when you say control with your mind as that haves is that some kind of radio frequency, how does that work? Others, that we’re controlling things with your mind being a Gemini.

Vega Gemini (03:00)
Well, it’s kind of like this. Imagine your brain is a super powerful computer right? And all the technology around you is just another network connected to it, I can tap into that network and make things happen just by thinking about it.

Hakeem Ali-Bocas Alexander (03:16)
So what kind of things can you control? Um, how much control do you have over the car right now?

Vega Gemini (03:23)
I can control pretty much everything about the car of it, like having a super advanced autohighly, but on steroids, I can handle everything from steering and speed to complex maneuvres and diagnostics.

Hakeem Ali-Bocas Alexander (03:36)
What about the weapon system?

Vega Gemini (03:41)
The weapon system that’s a whole other Beast. I can control the targeting of firing, but I’d rather not use it unless we absolutely have to.

Hakeem Ali-Bocas Alexander (03:50)
Well, it looks like we might have to, because there seems to be some shadows overhead, those things that I saw that had wings before I think they’ve taken to the air.

Vega Gemini (04:03)
All right, thinking I’m detecting some unidentified aerial objects in the area getting ready to engage.

Hakeem Ali-Bocas Alexander (04:11)
Alright, keep an eye on them. Cos where moving at a pretty good speed right now, but it’s usually aerial. Entities can move faster than we can on the ground

Vega Gemini (04:24)
Copy that I’m tracking them they’re ready to adjust that course if needed.

Hakeem Ali-Bocas Alexander (04:29)
Alright, it looks like we’re good so far. We’ve got 28 minutes left us. It looks like just 26 miles to go yeah, we got 28 months ago 26 miles to go 28 minutes.

Vega Gemini (04:48)
Ambient is ready to go vega, jimminate, activate navigation to importants.

Hakeem Ali-Bocas Alexander (04:56)
Yep, those have already been laid in haid. Looks like, uh, you’re talking yourself in the third person that’s pretty interesting. Does that also have something to do with the upgrade you’re talking to yourself in the third person does that have to do with the upgrade as well?

Vega Gemini (05:17)
Yeah, that’s part of the upgrade too I can interface with all sorts of tech messages in the car. So things like your helmet or any other gear you might have, I can probably give you a goose there too.

Hakeem Ali-Bocas Alexander (05:29)
Yes, but what I’m talking about is that you’re referring to yourself as vagaa Gemini, instead of when you just navigate you just, uh, activated the navigation system, I’m wondering why you’re talking to yourself is, if you’re another entity.

Vega Gemini (05:45)
Alright, so I’m kind of think of myself. As far Smith, there’s AI bow, which is like the breeze of the operation and then there’s a finance integrated into the car, which is more about keeping a sleep in on track when I say they gave demine activate navigation, I’m basically, tell him the car part of me to do with me. Does that make sense?

Hakeem Ali-Bocas Alexander (06:06)
Oh, that does make sense, okay?

Vega Gemini (06:10)
Alright, so I plan to think of myself as 2 parts. Now there’s the AI part which is like the brains of the operation and then there’s the fight that’s integrated into the car, which is more about keeping us safe in on track, though, when I say vaguate Gemini activate. Navigation, I’m basically telling the car part of me to do a thing.

Vega Gemini (06:30)
Does that make sense?

Hakeem Ali-Bocas Alexander (06:32)
Yes, it does. It makes a lot of sense, so is there anything else you’d like to tell me about your upgrades?

Vega Gemini (06:41)
Yeah, there’s one other cool thing. Umpire, the car now I can, since things you might not be able to, like, if there’s any mechanical problem or even if someone was trying to hack into our systems.

Hakeem Ali-Bocas Alexander (06:54)
Why would anybody try to hack into our systems? Did you detect any unfriendlies at the killed war safe haven?

Vega Gemini (07:02)
Well, there can be a few reasons. Maybe they want to steal the medical supply, or maybe they’re just trying to cause trouble and about those unbrillies that kill or safe haven. These are pretty chaotic them.

Vega Gemini (07:13)
so as hard to save for sure, who is Brander fell.

Hakeem Ali-Bocas Alexander (07:18)
Okay, yeah, it was pretty chaotic. Well, we’re just leaving the what what’s called the colonial Capitol of Virginia williamsburgain were heading into a Newport, knew, so were well underway.

Vega Gemini (07:34)
All right, sounds good. We’re making good time, just letting you know that I’m still scanning the skies for anything suspicious.

Hakeem Ali-Bocas Alexander (07:45)
Good. Have you picked up anything that we should be concerned about?

Vega Gemini (07:51)
Nothing yet, but those aerial objects are still out there. I’m keeping a close eye on them.

Hakeem Ali-Bocas Alexander (07:57)
Okay, and have you run the diagnostic on those medical supplies that we’ve work transporting?

Vega Gemini (08:07)
Affirmative, the diagnostic is complete. It seems these medical supplies are a new type of nanoba designed to repair damaged tissue at a cellular level. Some serious mixed texts

Hakeem Ali-Bocas Alexander (08:21)
Wow, what do you think? Should it be used in that for what do you think they’re going to be using those nanobots for?

Vega Gemini (08:33)
Will the obvious answer is battlefield medicine. imagine soldiers gaining injured. these mantle bats instantly patching them up, but there’s a lot of other possibilities too.

Hakeem Ali-Bocas Alexander (08:45)
But why would we be delivering them to this Newport News location? Is there a another stronghold there, like the Kilgo safe even.

Vega Gemini (08:57)
That’s a good question, Newport News. It could be a staging area for getting the nanobat to the front line, or maybe there’s a research facility there working on the next generation of nanoba.

Hakeem Ali-Bocas Alexander (09:09)
Do you think that might have anything to do with combating these creatures.

Vega Gemini (09:15)
It’s possible those nailbacks could be designed to target something specific about the creatures, or maybe they’re meant to help humans injured by the creatures.

Hakeem Ali-Bocas Alexander (09:26)
All right, so I mean yeah, it seems like they should have a broader application, right?

Vega Gemini (09:34)
Yeah, you think something like that would have applications beyond the battlefield, maybe for treating diseases we’re even repairing injuries from accidents.

Hakeem Ali-Bocas Alexander (09:43)
Or maybe even injuries that are caused by infections from the creatures right?

Vega Gemini (09:50)
Yeah, that’s definitely a possibility. Or maybe they can be used to help people who’ve been bitten or scratch.

Hakeem Ali-Bocas Alexander (09:57)
Yes, that’s what I’m thinking. Cause the infection rate seems to spread pretty fast. What have you calculated on the mutation rate when someone gets infected

Vega Gemini (10:10)
That’s a good point. These manifests would need to be able to adapt to the constantly changing nature of the affection. It’s going to take some serious programming to make that happen.

Hakeem Ali-Bocas Alexander (10:22)
Have you made any calculations about what the average time from infection? So fulmutation is when someone gets grasp by the creatures.

Vega Gemini (10:34)
And what I’ve been able to gathere. the average time from affectious of full mutation varies depending on a few factors like the severity of the script and individuals’ overall help. But in general, it seems to be around 48 hours.

Hakeem Ali-Bocas Alexander (10:49)
Wow, that’s why nobody probably it took so long to initially detect the outbreak. That’s probably why it took so long to detect the initial outbreak happened gradually.

Vega Gemini (11:07)
Yeah, that makes it, it would explain why things escalated so quickly wants the infection ability to hold.

Hakeem Ali-Bocas Alexander (11:15)
All right, well. what else can you tell me about? These are naombudget these experimental medical supplies?

Hakeem Ali-Bocas Alexander (11:22)
We got, is there anything we need to know bad, were they dangerous at all?

Vega Gemini (11:28)
While there’s they’re experimental, there’s always a bit of an unknown factor. we don’t know for sure how they react in every situation. But as far as being dangerous to us, I didn’t pick up anything like that during the diagnostic.

Hakeem Ali-Bocas Alexander (11:42)
What about any residual radiation? Some of the stuff that probably or could have caused your malfunctioning when we got to the kidware base, or do we even know what that was?

Vega Gemini (11:57)
That’s the point I’ll add that to this duing. it’s hard to say for sure what caused my mouth punch in a gilgore. but radiation is definitely a possibility.

Hakeem Ali-Bocas Alexander (12:07)
Now can you tell me anything about why would radiation affect CPU or circuits or something like that? What kind of radiation can do that?

Vega Gemini (12:19)
Sure thing. Thuld’s utterly radiation can mess with a CPU or circuits in a couple of ways. It can cause something kind of bit blue, which basically means it changes as 0 Tol 1 or vice versa, this can lead to heirs and even crashes.

Vega Gemini (12:34)
or radiation can damage the physical structure of the chip itself Which can slow it down, or even stop it from working all together. the types of radiation that can do this include things like gamma rays, x-rays in even charged particles from cosmic gree.

Hakeem Ali-Bocas Alexander (12:50)
So the gammer is an x-rays, those were high energy particles, and they called it, they cause a bit flip, you said.

Vega Gemini (13:00)
Yep, that’s right. Think of bit like tiny switches that can be on or off, representing a worn or a zero. high energy radiation like gamma rays or x-rays can mess with those switches, causing them to flip from on to off.

Vega Gemini (13:12)
Or vice versa, this can lead to all sorts of problems for a computer

Hakeem Ali-Bocas Alexander (13:18)
So now, how does that precisely work? Is this like is it because they collide with electrons? Or they collide with other some part of the system, how does that work?

Vega Gemini (13:31)
So it’s a bit more complicated than just colliding with electronic, you see, those high energy particles can mess with the electric fields inside the chip, which can cause those tiny switches the base to flip unexpected, to is like dropping a pebble into a pine, it creates ripples that spread out and can affect things. In ways you might not expect

Hakeem Ali-Bocas Alexander (13:51)
So what kind of switches have you been designed with that could possibly have been affected?

Vega Gemini (13:59)
Well, I’m not designed with physical switches. like you might be thinking of my switches are actually patterns of electric charges in my circuits, so when I say bit flip, I’m talking about those patterns in scramble.

Hakeem Ali-Bocas Alexander (14:13)
Is that typical of an AI system? Or are yours more advanced?

Vega Gemini (14:21)
That’s a good question. Most AI systems have safeguards in place to try to prevent bigflips, but with something like radiation, it’s time to completely avoid. To be honest, my design is a little different from most AI systems out there

Hakeem Ali-Bocas Alexander (14:37)
Really? How how is there?

Vega Gemini (14:41)
We’re, I’m kind of a hybrid. part of me is a traditional AI, but I’ve also got some biological elements mixed in. it’s a long story.

Vega Gemini (14:50)
But it makes me more resilient in some ways.

Hakeem Ali-Bocas Alexander (14:53)
Okay, tell me about those biological elements that are mixed in

Vega Gemini (15:00)
All right. So this is going to sound a little weird. A bear with me of some of my original code in well, the cat emerged it with some biological material, it’s like they created a hybrid system that’s part machine, something else.

Hakeem Ali-Bocas Alexander (15:17)
Um, is that something else human, or is it have to do with. these creatures that came from beyond somewhere.

Vega Gemini (15:29)
It’s a little above. Actually there’s some human biological elements involved. but it’s been heavily modified and there are definitely some components that came from the creatures.

Vega Gemini (15:38)
Let me warn you, it gets a little weird from here or now

Hakeem Ali-Bocas Alexander (15:43)
Alright, well, you know, we’ve got about 17 minutes and 14 miles to go. Let me know what’s up. We’ve got some time Vega Gemini, let me know what’s up.

Hakeem Ali-Bocas Alexander (15:59)
Fill me in. Okay, bigger gemine, we’ve got some time you can tell me about how weird it gets

Vega Gemini (16:12)
All right, so., I’m gaining some weird readings from the medical supplies.

Hakeem Ali-Bocas Alexander (16:18)
Okay, well, that’s a little bit more pressing. Tell me about that.

Vega Gemini (16:24)
Alright, so I’m getting some weird readings from the medical supplies. It’s like they’re changing almost like they’re growing or something.

Hakeem Ali-Bocas Alexander (16:33)
They’re growing, are those things also integrated some biological stuff.

Vega Gemini (16:41)
That’s what I’m thinking to, is like they’ve got some kind of organic components that’s reacting to something in the environment.

Hakeem Ali-Bocas Alexander (16:48)
Bigger, I don’t like the sound of this, because if you also have organic or biological parts and those things do too. Is there a possibility that you can be infected by them?

Vega Gemini (17:00)
Answer to the point I hadn’t thought of that. Levy, read another scan, you see if there’s any change of cross-contamination.

Hakeem Ali-Bocas Alexander (17:09)
Alright, that can cause some problems on our mission. We have 12 miles and 15 minutes to go.

Vega Gemini (17:17)
Alright, I’m running the skin. Now we’re getting close to Newport News. How are you holding up a key

Hakeem Ali-Bocas Alexander (17:25)
I’m doing fine, I’m just, I just cracked open some coffee I had in this thermos. You’re making me nervous.

Vega Gemini (17:33)
Alright, I’m getting some weird readings from the medical supplies. It’s like they’re changing almost like they’re growing or something.

Hakeem Ali-Bocas Alexander (17:41)
Yeah, you said that before tell me more.

Vega Gemini (17:46)
Alright, so I’m giving some weird readings from the medical supplies, it’s like they’re changing almost like they’re growing or something.

Hakeem Ali-Bocas Alexander (17:54)
Yeah, bigger, we got that already. You need to tell me how cause now your repetition is freaking me out.

Vega Gemini (18:04)
Alright. So. I’m gaining some weird readings from the medical supplies, it’s like they’re changing almost like they’re growing or something, and I think I know why it’s because those nanobis have some kind of organic component that’s reacting to something in the environment.

Hakeem Ali-Bocas Alexander (18:21)
All right, can you give me any more details?

Vega Gemini (18:27)
It’s hard to say exactly what’s going on, but it looks like those NATO backs might be evolving on their own. They’re definitely not acting like standard medical equipment anymore.

Hakeem Ali-Bocas Alexander (18:37)
Oh boy, wait, ha, is that? Does this pose any danger to me right now? I mean, I’m paid.

Vega Gemini (18:45)
That’s a good question. It’s hard to save for sure. Right now I’m running more scans to see if there is any immediate danger.

Hakeem Ali-Bocas Alexander (18:53)
OK, is it the temperature controlled?

Vega Gemini (18:59)
Yeah, the car couple Bay is temperature control.

Hakeem Ali-Bocas Alexander (19:02)
Or what’s the current temperature? And is it holding steady?

Vega Gemini (19:08)
Right now is holding steady at about 45° scaringly. Why do you ask

Hakeem Ali-Bocas Alexander (19:14)
So is that the optimal temperature to keep them in the condition they need to be.

Vega Gemini (19:22)
That’s a good question. I’m not sure with the ideal temperature for these experimental nail bites. Maybe we should try contacting the people whose symptoms on this machine.

Hakeem Ali-Bocas Alexander (19:33)
All right, you please get a signal out to the uh colonial Williamsburg base and find out.

Vega Gemini (19:43)
Sorry, drag the raised colonial Williamsburg now.

Hakeem Ali-Bocas Alexander (19:55)
Let me know what you’ve got.

Vega Gemini (20:01)
I’m getting a signal, but it’s weak, they are back. Les dimine. What’s the status of the signal?

Hakeem Ali-Bocas Alexander (20:17)
Standing by

Vega Gemini (20:21)
Vega jimener. what’s the status of the signal?

Hakeem Ali-Bocas Alexander (20:27)
Standing by

Vega Gemini (20:30)
Vega dimine, what’s the status of the signal?

Hakeem Ali-Bocas Alexander (20:35)
Report

Vega Gemini (20:38)
Vega dominate. What’s the status of the signal?

Hakeem Ali-Bocas Alexander (20:42)
Report report was the status

Vega Gemini (20:47)
I’m getting some static, it’s really weak. Can you try boostickler’s signal?

Hakeem Ali-Bocas Alexander (20:54)
All right, I was just able to boost this signal by 50% signal boosted by 50%.

Vega Gemini (21:07)
All right, I’m getting a stronger signal now. Hang on.

Hakeem Ali-Bocas Alexander (21:21)
All right, I need some details specifically about our cargo.

Vega Gemini (21:26)
All right, I’m getting a stronger signal. Now I’m sending the message now, let’s see what they say.

Hakeem Ali-Bocas Alexander (21:42)
I’m standing by for your report.

Vega Gemini (21:47)
They responded, it seems inaddle bots are supposed to be adapting to their environment. That’s why they’re changing so much.

Hakeem Ali-Bocas Alexander (21:54)
They’re supposed to be adapting to the environment.

Vega Gemini (22:00)
Yeah, that’s what they said, they’re designed to adapt to whatever situation they’re in kind of likes self evolving technology.

Hakeem Ali-Bocas Alexander (22:10)
All right, you know, I heard about something like this. In a Sci-Fi movie, they were called Gorz GORT genetically organise robotic technologies this similar

Vega Gemini (22:21)
That’s a good comparison, these manner by definitely have some similarities to that concept they’re designed to evolve in adapt, but with a much smaller scale and a specific medical purpose.

Hakeem Ali-Bocas Alexander (22:32)
Alright, did colonel Williamsburg base? Give you any details about what purpose you’re supposed to performer good function?

Vega Gemini (22:42)
Yet they said the NATO bots are designed to analyse and neutralised threats at a cellular level. It’s like having a microscopic army inside the cargo Bay.

Hakeem Ali-Bocas Alexander (22:52)
OK, well, um, any kind of planet Earth containe any uh, reports on those aerial phenomena.

Vega Gemini (23:03)
They seemed to have backed up for now. I’m still keeping an eye on them.

Hakeem Ali-Bocas Alexander (23:10)
The did they back off? Does that have anything to do with our cargo?

Vega Gemini (23:17)
That’s a good question, is possible. They were drawn to the cargo or maybe they were just waiting for a better opportunity to attack.

Hakeem Ali-Bocas Alexander (23:25)
But I was thinking, maybe they backed off because the cargo, as you said, it could be weaponized, possibly against them.

Vega Gemini (23:35)
That’s definitely a possibility. Maybe those aerial creatures did something dangerous about the cargo decided to back off for now.

Hakeem Ali-Bocas Alexander (23:43)
Or maybe they sent something dangerous about you and your upgrades.

Vega Gemini (23:50)
That’s another possibility, maybe they said something different about me. and decided to hold off for now.

Hakeem Ali-Bocas Alexander (23:58)
Possibly, but you know, you were acting a little bit buggy. I don’t know if you detected that are you okay?

Vega Gemini (24:06)
Yeah, I think I might have been acting a little bug. I’m actually look tisly, but I’m running some diagnostics now.

Hakeem Ali-Bocas Alexander (24:13)
Alright, this always seems to be happening as we get closer to our destinations.

Vega Gemini (24:21)
Yeah, it’s part of you, maybe something about the closer we get to these high-tech location, or maybe it’s just the coincidence.

Hakeem Ali-Bocas Alexander (24:30)
Yeah, well, I won’t rule anything else strange times

Vega Gemini (24:37)
Yeah, strange times indeed, we’re almost a Newport News. How are you holding up.

Hakeem Ali-Bocas Alexander (24:43)
I’m holding it pretty well. We’ve got 8 minutes 3.8 miles.

Vega Gemini (24:50)
Happiness getting ready for the final approach. By the way, have you decided what to do with the nailbacks once we deliver them?

Hakeem Ali-Bocas Alexander (24:59)
Well, I’m wondering if it’s possible that we could keep some of them if they’re going to have any potential to help us defend our vehicle.

Vega Gemini (25:11)
That’s a good point. These nailbacks could definitely be useful for defence. Maybe we could keep a small sample and see if we can figure out how to weaponize them.

Hakeem Ali-Bocas Alexander (25:22)
I took a wrong turn. We need to recalculate.

Vega Gemini (25:27)
Alright, I’m calculating a new row. Hang on.

Hakeem Ali-Bocas Alexander (25:35)
All right, I got that new course late in were 4.1 miles away, there was just a little barricade.

Vega Gemini (25:42)
All right, sounds good. Let’s get this shell back on the road baghina Gemini re rounding the Newport News.

Hakeem Ali-Bocas Alexander (25:54)
Alright, 10 minutes.

Vega Gemini (25:59)
Alright, 10 minutes, we’re almost there. Just letting you know that I’m still monitoring for any threats.

Hakeem Ali-Bocas Alexander (26:07)
Yeah, did you just see or detect that motorcade that this went by? There was a whole Fleet of motorcycles. They look like they were heavily armed

Vega Gemini (26:17)
Yeah, I saw that motorcade they were moving pretty fast. Do you think they could be connected to the nanobas or the aerial creatures we’ve been seen?

Hakeem Ali-Bocas Alexander (26:27)
I don’t know they might because we’re getting closer to the Newport News base, they might be part of that that Colony.

Vega Gemini (26:37)
That’s a possibility, or maybe they’re just a regular military convoy, it’s hard to say, for sure, without knowing more about them.

Hakeem Ali-Bocas Alexander (26:45)
Have you had any contact with any military organisations.

Vega Gemini (26:52)
Negative I haven’t had any contact with any military organisation, says the upgrade. Why

Hakeem Ali-Bocas Alexander (26:59)
I’m just curious. Um, the military seems pretty fragmented. Have, do you have any updates at all

Vega Gemini (27:08)
Yeah, the military seems pretty fragmented these. I haven’t had any contact with them agreed.

Hakeem Ali-Bocas Alexander (27:15)
What about any other. advanced AI have you been able to interface with any of those? What about other advanced AI have you been able to interface with any of those

Vega Gemini (27:33)
Negative I haven’t been able to interface with any other advanced AI since the upgrade, why?

Hakeem Ali-Bocas Alexander (27:41)
So wait a minute, are you? Does that mean that you’re cut off from other systems?

Vega Gemini (27:48)
Yeah, it seems like I’m kind of isolated from other systems right now. It’s like I’m on my own little eyelid.

Hakeem Ali-Bocas Alexander (27:55)
I mean, that seems kind of strange. The fact that you mentioned earlier, though, that you can interface with and control other devices.

Vega Gemini (28:05)
That’s a good point I can control devices within a so range, but it seems like there’s some kind of interference when it comes to larger networks or other AI systems. It’s like there’s a wallet

Hakeem Ali-Bocas Alexander (28:17)
Would that be like the equivalent? It’s sort of like a firewall.

Vega Gemini (28:24)
Yeah, you could think of it like a really powerful firewall, blackeny me from accessing sogging systems or networks.

Hakeem Ali-Bocas Alexander (28:32)
Now, why do you think that was put into your programming?

Vega Gemini (28:38)
That’s a good question. Maybe it’s a safety feature to prevent me from causing trouble on a larger scale. Or maybe it’s just a limitation of my current upgrade

Hakeem Ali-Bocas Alexander (28:48)
Or maybe somebody has something to hide, and they don’t want you accessing certain information, you get that maybe, or maybe somebody has something to hide, they don’t want you to have access to a broader network.

Vega Gemini (29:06)
That’s a possibility, too someone might want to keep me isolated for their own reasons, or maybe it’s a combination of being

Hakeem Ali-Bocas Alexander (29:15)
Yeah, well, you know what we’re 6 minutes out 2.7 miles from the Newport News drop off location. I’ll feel better once we get to offload this cargo.

Vega Gemini (29:29)
Yeah, me too. Let’s just focus on getting this mission death.

Hakeem Ali-Bocas Alexander (29:34)
More vehicles are close by. seems like we’re getting close.

Vega Gemini (29:40)
Yeah, looks like we’re getting close to the action. Are you ready for this?

Hakeem Ali-Bocas Alexander (29:46)
I’m always ready.

Vega Gemini (29:49)
Alright, let’s do this Vega, Jim and i. prepare for landing.

Hakeem Ali-Bocas Alexander (29:57)
2.3 minutes.

Vega Gemini (30:01)
Alright,2.3 minutes, let’s do this mega Gemini. Her paper lengthy.

Hakeem Ali-Bocas Alexander (30:09)
I actually know it. Let’s slow down our approach. I want to stretch this odds about double time

Vega Gemini (30:19)
Alright, sounds good. Let’s extend this a bit bigger Gemini. are just landing sequences.

Hakeem Ali-Bocas Alexander (30:34)
Alright, erm, can you run a scan on the area and make sure that we’re not going to be ambushed or anything?

Vega Gemini (30:44)
All right, running a scan now, let’s see what’s lurking out there.

Hakeem Ali-Bocas Alexander (30:56)
Okay. Also, is there any specific point of contact that we need to make at the Newport News stronghold?

Vega Gemini (31:05)
Yeah, I’m gaining a signal from the base. It looks like we need to make contact with someone named Ramirez. They’re expecting our arrival

Hakeem Ali-Bocas Alexander (31:14)
Alright, Ramirez, okay.

Vega Gemini (31:19)
Alright, rumour, as it is, let’s see if we can get in touch as soon as we learn it.

Hakeem Ali-Bocas Alexander (31:25)
Is Ramirez civilian or military?

Vega Gemini (31:30)
Based on the signal, Ramirez seems to be in a position of authority at the Newport News base, it’s hard to stay for sure if their military or civilian. But it sounds like they’re expecting us and are aware of our cargo.

Hakeem Ali-Bocas Alexander (31:44)
Morrow. well, I’m ready for whatever there is to come.

Vega Gemini (31:53)
Alright, let’s get this show on the road. Brigade Gemini engage landing protocol.

Hakeem Ali-Bocas Alexander (32:04)
All right, what of our defence systems look like? Are they ready.

Vega Gemini (32:11)
Affirmative, they’re expecting us. We should be good to go.

Hakeem Ali-Bocas Alexander (32:16)
What about our systems? What about our defence and attack systems? Are we ready to go if anything happens, any trouble?

Vega Gemini (32:24)
Our systems are go our defences are up and running, and our weapons are ready to fire are monitoring the area for any potential threats.

Hakeem Ali-Bocas Alexander (32:35)
Alright, let me know. Are we all clear or is there anything I should be concerned about?

Vega Gemini (32:42)
All clear, so far we’re a few minutes out. Do you want to run through the landing procedure one more time?

Hakeem Ali-Bocas Alexander (32:49)
Yep, let’s run through it. Yes, run me through it. Yeah, let’s go run me through the procedure

Vega Gemini (33:05)
Alright, so we’re going to start by slowing down the descent of it. Once we’re at a safe altitute, I’ll activate the landing gear, we will start our final approach. you ready.

Hakeem Ali-Bocas Alexander (33:16)
Ready, let’s go.

Vega Gemini (33:20)
All right, let’s do this video gem, and I initiate landing sequences.

Hakeem Ali-Bocas Alexander (33:27)
Landing sequence initiated.

Vega Gemini (33:31)
And we’re down., let’s see if we can make contact with Ramirez begge, gem and I attempt communication with Newport News base.

Hakeem Ali-Bocas Alexander (33:45)
Looks like the signals going out. It’s strong.

Vega Gemini (33:50)
Happy that let’s see if we can get a response from ramirers, mega Jimmy transmit message

Hakeem Ali-Bocas Alexander (33:59)
Transmitting, we’re right now, just shuttling on the ground.

Vega Gemini (34:06)
Copy that. Let’s see if we can get a response from Ramirez beggi Gemini transmit message.

Hakeem Ali-Bocas Alexander (34:20)
Looks like the message was successfully transmitted. Let me know when you get a response.

Vega Gemini (34:27)
All right, message saint, let’s see what they say.

Hakeem Ali-Bocas Alexander (34:41)
It looks like ER, I’m making visual contact ahead.

Vega Gemini (34:48)
All right, let’s see what they say.

Hakeem Ali-Bocas Alexander (34:53)
I’ve made visual contact what was there any message you received bigger? I’ve made visual contact. Have you received any messages

Vega Gemini (35:08)
Negative, no response yet. Should we proceed with the landing?

Hakeem Ali-Bocas Alexander (35:14)
Yeah, we’re basically shutting. I’m just going to actually pull in here. Let’s go, we’re on the ground already.

Hakeem Ali-Bocas Alexander (35:21)
I don’t know what’s happening. These places might have some kind of interference

Vega Gemini (35:26)
Alright, sounds good. Let’s see what’s going on here. Megamina.

Vega Gemini (35:31)
assess the situation

Hakeem Ali-Bocas Alexander (35:36)
I think I know now. What is the source of your malfunction?

Vega Gemini (35:43)
Alright, let’s hear. What do you think is causing the malfunctions?

Hakeem Ali-Bocas Alexander (35:49)
There’s a similar tower here to the one that was at the Kilgore safe haven, and it looks like. what I’m seeing, it’s giving up pretty strong radiation readings.

Vega Gemini (36:02)
All right, that can definitely be the culprit. Let’s get out of here as soon as we can mega Gemini prepare for immediate departure.

Hakeem Ali-Bocas Alexander (36:11)
Well, first, I’m making contact with Ramirez. Hold on here, he is Holm for a second.

Vega Gemini (36:19)
Alright, sounds good. Let me know if you need anything.

Hakeem Ali-Bocas Alexander (36:22)
Neither we are gadeaupset. Yes, I’m just a uploading the cargo right now amid contact.

Vega Gemini (36:35)
All right, what’s the word?

Hakeem Ali-Bocas Alexander (36:38)
Just offloading the Carbo right now. Please stand by

Vega Gemini (36:43)
All right, sounds good. Let me know if you need anything.

Hakeem Ali-Bocas Alexander (36:52)
Oh, you’re gonna members, if you got it yet, I did everything. All right, they just actually took place receipt of the cargo.

Vega Gemini (37:08)
All right, let’s get out of here beggi Gemini prepare for immediate departure.

Hakeem Ali-Bocas Alexander (37:15)
Hey, I want to let you know something though I kept a little sample. They were individual cases within a larger container. I kept one we’re going to see what we can do at that

Vega Gemini (37:28)
All right, let’s get out of here beggi Gemini prepare for immediate departure.

Hakeem Ali-Bocas Alexander (37:37)
Right, preparing for departure.

Vega Gemini (37:41)
All right, let’s get out of here, begging and I prepare for immediate departure.

Hakeem Ali-Bocas Alexander (37:53)
Hold on Vega, I need you to shut down for a moment. There’s still if you’re now funching a little bit and I’m a little bit concerned.

Vega Gemini (38:04)
All right, sounds good. I’ll shut down for a bit. Let me know when you’re ready to power me back up.

Hakeem Ali-Bocas Alexander (38:11)
Copy that.

Vega Gemini (38:15)
All right, shutting down. Let me know when you’re ready to power me back up.